CN117627852A - Convergence type water flow energy engine - Google Patents

Abstract

The invention discloses a converging type water flow energy engine which comprises a first chain wheel group, a second chain wheel group, a chain, a water retaining clapping plate and a cross beam, wherein the first chain wheel group is connected with the water retaining clapping plate; the first chain wheel group comprises a first installation shaft and a first chain wheel, and the first chain wheel is sleeved at two ends of the first installation shaft; the second chain wheel group comprises a second installation shaft and a second chain wheel, and the second chain wheel is sleeved at two ends of the second installation shaft; the chain is sleeved on the first chain wheel and the second chain wheel; two ends of the cross beam are respectively fixed on the two chains; and each beam is provided with a water retaining clapper. When the water retaining clapping plate falls into water downwards, water flow acts on the water retaining clapping plate, so that the water retaining clapping plate moves under the action of the water flow, and the cross beam moves along with the water flow; the crossbeam finally drives the first sprocket and the second sprocket to rotate, and power can be output through the first installation shaft or the second installation shaft, so that the kinetic energy of water flow is converted into the kinetic energy of each installation shaft, the output of the kinetic energy is convenient, and different use requirements are met.

Description

Convergence type water flow energy engine

Technical Field

The invention belongs to an engine, and particularly relates to a converging type water flow energy engine.

Background

In order to improve the utilization of the kinetic energy of water flow, a generator for generating electricity by utilizing water flow gradually appears, for example, a water flow generator is disclosed in application number 202122809100.7, and water flow through a pipeline acts on an impeller to drive the impeller to rotate, and then corresponding conversion is performed to realize electricity generation. The water flow generator only uses the water flow kinetic energy in the water pipe, but most of the water flow kinetic energy stored in the nature cannot be well utilized, such as the water flow kinetic energy of the ocean, the river and the like, so that development of an engine capable of effectively utilizing the water flow kinetic energy in the nature is needed.

Disclosure of Invention

The present invention aims to provide a collective water energy engine that solves at least one of the above problems.

According to one aspect of the invention, there is provided a converging water flow energy engine comprising a first sprocket set, a second sprocket set, a chain, a water deflector flap and a cross beam;

the first chain wheel group is two groups;

the second chain wheel group is two groups and is positioned below the first chain wheel group;

the first chain wheel group comprises a first installation shaft and a first chain wheel, and the first chain wheel is sleeved at two ends of the first installation shaft;

the second chain wheel group comprises a second installation shaft and a second chain wheel, and the second chain wheel is sleeved at two ends of the second installation shaft;

the two chains are respectively sleeved on the first chain wheel and the second chain wheel at the corresponding sides;

two ends of the cross beam are respectively fixed on two chains, and the cross beams are distributed along the chains in sequence;

and each beam is provided with a water retaining clapping plate which can rotate relative to the beam.

The beneficial effects of the invention are as follows: by arranging the water retaining claps, when the water retaining claps fall into water, water flow acts on the water retaining claps, so that the water retaining claps move under the action of the water flow, and the cross beam moves along with the water flow; when the cross beam moves, the chain is driven to be transmitted on the first chain wheel and the second chain wheel, so that the first chain wheel and the second chain wheel are driven to rotate, power can be output through the first installation shaft or the second installation shaft, the kinetic energy conversion of water flow is realized, the kinetic energy of each installation shaft is converted, the kinetic energy is conveniently output, and the corresponding energy conversion device can be externally connected, so that the final output can be kinetic energy or electric energy, and different use requirements are met. The engine is directly placed in water flow, can be widely applied to ocean or river water areas and the like, and is beneficial to wide popularization.

In some embodiments, the converging water flow energy engine further comprises a plurality of auxiliary claps, wherein the auxiliary claps correspond to the water retaining claps, the auxiliary claps are arranged at the lower part of the water retaining claps, and the bottom ends of the auxiliary claps are flush with the bottom ends of the water retaining claps. Therefore, the counterweight of the water retaining clapper can be increased by arranging the auxiliary clapper, so that when the water retaining clapper rotates downwards, the water retaining clapper can be accelerated to be unfolded downwards and fall through the auxiliary clapper, and the rapid action with water flow is realized.

In some embodiments, the converging water flow energy engine further includes a bracket, the second sprocket being mounted at one end of the bracket, one end of the bracket being rotatable about the other end thereof. Therefore, the second chain wheel can be conveniently installed by the support.

In some embodiments, the converging water flow energy engine further comprises a first supporting frame and a second supporting frame, wherein the first supporting frame is provided with a first supporting groove, the second supporting frame is provided with a second supporting groove, the first supporting frame is located above the first chain wheel, the second supporting frame is located below the second chain wheel, the second supporting frame is connected with one end of the support, the first supporting frame and the second supporting frame are two, the upper part of the chain is located in the first supporting groove, and the lower part of the chain is located in the second supporting groove. Therefore, by the aid of the first supporting groove and the second supporting groove, the corresponding guiding and limiting effects on the cross beam can be achieved.

In some embodiments, the converging water flow energy engine further comprises a hinge and a first stay rope, wherein the hinge is rotationally connected with two sides of the water retaining clapping plate, one end of the first stay rope is connected with the water retaining clapping plate, the other end of the first stay rope is connected with the hinge, the hinge is positioned between the two first support frames, and the hinge is positioned between the two second support frames; the included angle between the loose-leaf and the first inhaul cable is smaller than or equal to 50 degrees. Therefore, the hinge is arranged, so that the two sides of the water retaining clapping plate can be effectively prevented from touching the corresponding structures on the two sides, and the water retaining clapping plate is ensured to smoothly rotate under the action of water flow.

In some embodiments, the converging water flow energy engine further comprises a first pulley, the two ends of the first mounting shaft and the second mounting shaft are respectively sleeved with the first pulley, the cross beam is sleeved with a second pulley, the first pulley is matched with the first supporting frame, and the second pulley is matched with the first supporting groove and the second supporting groove. Therefore, the first pulley and the second pulley are arranged, so that the rotation of the installation shaft can be facilitated, and meanwhile, the movement of the cross beam on the supporting groove is facilitated, and the movement resistance is reduced.

In some embodiments, the converging water flow energy engine further comprises a second inhaul cable, the water retaining claps are formed by splicing a plurality of clap plate units in sequence along the length direction, adjacent water retaining claps are connected through the second inhaul cable, and each clap plate unit is connected with at least one second inhaul cable. Therefore, through being provided with the second inhaul cable, each water retaining clapping plate can be conveniently connected through the second inhaul cable, and the continuity of movement is guaranteed.

In some embodiments, the collective water flow energy engine further comprises a driving device comprising a rack and a gear, wherein the rack is fixedly connected to the second support frame, and the gear is matched with the rack. From this, through being equipped with drive arrangement, conveniently drive the whole rotation of second support frame to pulling the whole upward or downward movement of second supporting groove, making the manger plate clapping plate of below when non-operating condition, whole upward movement can upwards lift away from the surface of water, reduces the resistance that receives when whole removal.

In some embodiments, the converging water flow energy engine further comprises a lock hook and a chain rope, wherein the lock hook is arranged at one end of the chain rope, the chain rope is positioned on the outer side of the cross beam, and the lock hook is arranged corresponding to the cross beam. Therefore, when the lower water-retaining clapper needs to move upwards to a position of a non-working state, the lower water-retaining clapper is hung on one of the cross beams through the lock hook, and the lock hook is pulled to move together along with the movement of the water-retaining clapper, so that the lower water-retaining clapper is folded under the action of the chain rope.

In some embodiments, the collective water flow energy engine further comprises a power output device comprising a power output gear sleeved on the first mounting shaft. Therefore, by the aid of the power output device, kinetic energy can be conveniently output, and conversion of water flow kinetic energy is achieved.

Drawings

Fig. 1 is a schematic diagram of a front view of a collective water flow energy engine of the present invention in an operating state.

Fig. 2 is a schematic view of the structure of the assembled water flow energy engine in a non-working state.

Fig. 3 is a schematic structural diagram of the cross beam and the first support frame in the top view structure of fig. 2.

Fig. 4 is a schematic side view of the collective water energy engine of the present invention.

Fig. 5 is a schematic top view of the water deflector flapper in the convergent water energy engine of the present invention in open use.

Fig. 6 is a schematic diagram of the front view of the water flap of the present invention in an open use.

Fig. 7 is a schematic diagram of the assembled water flow energy engine of the present invention in use installed in a watercraft.

Wherein, 1, a first sprocket group, 2, a second sprocket group, 3, a chain, 4, a water retaining clapping plate, 5, a cross beam, 6, an auxiliary clapping plate, 7, a bracket, 8, a first supporting frame, 9, a second supporting frame, 10, a loose-leaf, 20, a first inhaul cable, 30, a first pulley, 40, a second pulley, 50, a second inhaul cable, 60 and a driving device, 70, a lock hook, 80, a chain rope, 90, a power output device, 11, a first mounting shaft, 12, a first sprocket, 21, a second mounting shaft, 22, a second sprocket, 81, a first supporting groove, 91, a second supporting groove, 41, a clapping plate unit, 601, a rack, 602, a gear, 901 and a power output gear.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings.

Wherein the dashed line in fig. 2 indicates the position of the second sprocket 22 when in operation; the dashed line in fig. 4 indicates the height position at which the lower cross member is moved upwards in the rest state.

Reference is made to fig. 1 to 6. The converging type water flow energy engine comprises a first sprocket set 1, a second sprocket set 2, a chain 3, a water retaining clapping plate 4 and a cross beam 5;

the first chain wheel group 1 is divided into two groups;

the second chain wheel group 2 is two groups and is positioned below the first chain wheel group 1;

the first sprocket set 1 comprises a first mounting shaft 11 and a first sprocket 12, and the first sprocket 12 is sleeved at two ends of the first mounting shaft 11;

the second sprocket set 2 comprises a second mounting shaft 21 and a second sprocket 22, and the second sprocket 22 is sleeved at two ends of the second mounting shaft 21;

the two chains 3 are respectively sleeved on the first chain wheel 12 and the second chain wheel 22 at the corresponding sides;

two ends of the cross beam 5 are respectively fixed on the two chains 3, and the cross beams 5 are distributed along the chains 3 in sequence;

and each beam 5 is provided with a water baffle plate 4, and the water baffle plates 4 can rotate relative to the beams 5.

The first chain wheel 12 and the second chain wheel 22 are respectively arranged up and down, so that the chain 3 can be guided, the stability can be kept when the chain 3 rotates to a lower position, and the water retaining clapping plate 4 is in an open state when the lower chain is arranged.

When the collecting type water flow energy engine is used, a split ship type engine body is taken as a main body, two long ship bodies are arranged in parallel in a balanced way, the middle is used as a water flow channel, and the water flow acts on the water retaining clapping plate 4; the steel beam crossbeams are used for balancing and fixing on the ship body to form a main body. When the collecting type water flow energy engine is installed, the first installation shaft 11 is installed above the water surface of fluid, and the second installation shaft 21 is installed below the first installation shaft 11 in parallel; the first chain wheel 12 is sleeved at two ends of the first installation shaft 11, and the second chain wheel 22 is sleeved at two ends of the second installation shaft 21; the second sprocket 22 is located above the water surface; the chain 3 is then wound around the first sprocket 12 and the second sprocket 22. Wherein, both ends of the cross beam 5 penetrate through and are fixed on the chains 3 at both sides; each cross beam 5 is provided with a water retaining clapping plate 4 through a hinge connection, and when the water retaining clapping plate 4 is downwards hit down, the water falls into water and acts on the corresponding water retaining clapping plate 4 through water flow.

In the actual use process, in order to facilitate the effect of the water retaining clapping plate 4 and the water flow, the water retaining clapping plate 4 is formed by sequentially splicing a plurality of clapping plate units 41 along the length direction; the clapper units 41 in each water retaining clapper 4 can be connected through a hinge, so that the water retaining clapper 4 can be conveniently opened, and each clapper unit 41 can conveniently act with water flow; and when the convenient water retaining clapping plate 4 rotates to the lower position, the water retaining clapping plate is gradually opened.

When the collecting type water flow energy engine is used, when the cross beam 5 rotates to the lower side, the water retaining clapper 4 is unfolded downwards, so that water flow can directly act on the surface of the water retaining clapper 4.

The converging water flow energy engine also comprises a second stay rope 50, wherein adjacent water retaining claps 4 are connected through the second stay rope 50, and each clap plate unit 41 is connected with at least one second stay rope 50. Through the second inhaul cable 50, the water retaining claps 4 can be kept stable, and displacement is avoided; and when the corresponding cross beam 5 of the water retaining claps 4 moves to the upper part, the second inhaul cable 50 stacks the water retaining claps 4 above, so that the water retaining claps 4 can be stacked orderly.

Specifically, when the ship runs, the water flow acts on the water baffle clapping plate 4 which is opened downwards, the water baffle clapping plate 4 is pushed under the action of the water flow, and the water baffle clapping plate 4 is pushed to move along the water flow direction; the water retaining clapping plate 4 acts on the cross beam 5, so that the cross beam 5 moves together, the transmission of the chain 3 is realized, the movement of the cross beam 5 and the chain 3 is realized, the transverse direction 5 is driven to move from bottom to top and then from top to bottom, and the steps are repeated; the rotation of the chain 3 drives the first sprocket and the second sprocket to rotate, and when the first sprocket and the second sprocket rotate, the corresponding installation shaft is driven to rotate. Thus, the water flow is enabled to be output through the first and second mounting shafts through the switching of the respective structures.

In order to facilitate the output of kinetic energy, the collecting type water flow energy engine further comprises a power output device 90, the outer diameter of the first sprocket 12 is larger than that of the second sprocket 22, the power output device 90 comprises a power output gear 901, and the power output gear 901 is sleeved on the first mounting shaft 11. According to the actual use requirement, the power output gear 901 can directly output kinetic energy through an external gear structure; and the power generation can be performed by structures such as an external generator and the like, the kinetic energy is converted into electric energy, and the output of the electric energy is realized.

Because the outer diameter of the first sprocket 12 is larger than that of the second sprocket 22, the moment when the first mounting shaft rotates can be increased, facilitating stable output of kinetic energy.

The collecting type water flow energy engine also comprises a plurality of auxiliary claps 6, wherein the auxiliary claps 6 are corresponding to the water retaining claps 4, the auxiliary claps 6 are arranged at the lower part of the water retaining claps 4, and the bottom ends of the auxiliary claps 6 are flush with the bottom ends of the water retaining claps 4. Wherein, vice clapper 6 passes through hinged joint with manger plate clapper 4. The counterweight can be added through the auxiliary clapper 6, and the length is shorter, so when the auxiliary clapper 6 rotates to the lower side, the auxiliary clapper 6 is directly pulled vertically downwards, the accelerated unfolding of the water retaining clapper 4 can be accelerated, and the water retaining clapper can act with water flow quickly.

The converging water flow energy engine further comprises a bracket 7, and a second sprocket 22 is mounted at one end of the bracket 7, one end of the bracket 7 being rotatable about the other end thereof. In the actual use process, the other end of the bracket 7 is arranged on the ship body; when one end of the bracket 7 is turned to the down position, the second mounting shaft 21 is positioned in the water so that the water flow can directly act on the lower water deflector 4. When the engine does not need to work, external force can act on one end of the bracket 7, so that each bracket 7 rotates upwards and drives the chain and the cross beam 5 at the lower part to pull upwards, thereby pulling the water retaining clapper 4 upwards, gradually rising to the water surface, namely, moving the water retaining clapper 4 to a non-working position (as shown in figure 2), and greatly reducing the acting area of water flow and the water retaining clapper 4.

The collecting type water flow energy engine further comprises a first supporting frame 8 and a second supporting frame 9, wherein the first supporting frame 8 is provided with a first supporting groove 81, the second supporting frame 9 is provided with a second supporting groove 91, the first supporting frame 8 is positioned above the first chain wheel 12, the second supporting frame 9 is positioned below the second chain wheel 22, the second supporting frame 9 is connected with one end of the support 7, the first supporting frame 8 and the second supporting frame 9 are two, the upper part of the chain 3 is positioned in the first supporting groove 81, and the lower part of the chain 3 is positioned in the second supporting groove 91.

The converging type water flow energy engine further comprises a first pulley 30, the two ends of the first installation shaft 11 and the second installation shaft 21 are respectively sleeved with the first pulley 30, the cross beam 5 is sleeved with a second pulley 40, the first pulley 30 is matched with the first supporting frame 8, and the second pulley 40 is matched with the first supporting groove 81 and the second supporting groove 91.

In order to facilitate the installation of the first pulley 30, a corresponding support bracket 90 may be provided, and the installation of the first installation shaft 11 and the second installation shaft may be facilitated through the support bracket 90, and two ends of the two installation shafts are sleeved on the corresponding support bracket 90. The support bracket 90 has corresponding support grooves thereon to facilitate the installation of the first pulley 30. By providing the first pulley 30, the rotation of the first mounting shaft 11 and the second mounting shaft 21 can be facilitated, and the frictional resistance received when both rotate can be reduced.

Through being equipped with first supporting groove 81 and second supporting groove 91, consequently, when crossbeam 5 moves to top and below along with manger plate flapper 4, homoenergetic along corresponding supporting groove removes, and crossbeam 5 passes through second pulley 40 and contacts with corresponding supporting groove to the frictional resistance that receives when having significantly reduced crossbeam 5 and remove, when making things convenient for rivers to act on manger plate flapper 4, through manger plate flapper 4 promotion crossbeam 5 removal, and make whole chain rotate, realized the rotation of each installation axle.

The collecting type water flow energy engine further comprises a hinge 10 and a first stay rope 20, wherein the hinge 10 is rotationally connected with two sides of the water retaining clapping plate 4, one end of the first stay rope 20 is connected with the water retaining clapping plate 4, the other end of the first stay rope is connected with the hinge 10, the hinge 10 is positioned between the two first supporting frames 8, the hinge 10 is positioned between the two second supporting frames 9, and an included angle between the hinge 10 and the first stay rope 20 is smaller than or equal to 50 degrees. After the loose-leaf 10 is installed, the loose-leaf 10 can rotate relative to the water retaining clapping plate 4, so that when water flows act on the corresponding water retaining clapping plate 4, the water flows act on the loose-leaf 10, the loose-leaf 10 is opened, so that the water flows can be concentrated on the water retaining clapping plate 4, the acting force of the water flows is prevented from being dispersed to two sides, the water flows are better acted on the water retaining clapping plate 4, the water retaining clapping plate 4 is pushed to move, the corresponding installation shaft is finally driven to rotate, and the rotation speed is improved.

When the loose-leaf 10 is unfolded to the same plane as the water retaining clapping plate 4, the loose-leaf 10 just contacts with the supporting frames on two sides, but because the included angle between the loose-leaf 10 and the first inhaul cable 20 is smaller than or equal to 50 degrees, the loose-leaf 10 is tensioned through the first inhaul cable 20, the loose-leaf 10 is prevented from being completely opened to touch other structures, when the loose-leaf 10 is in an opened state, the loose-leaf 10 is always in an inclined state, and the edges of the loose-leaf 10 cannot be scraped on the side walls of the structures on two sides.

The collecting type water flow energy engine also comprises a driving device 60, wherein the driving device 60 comprises a rack 601 and a gear 602, the rack 601 is fixedly connected to the second support frame 9, and the gear 602 is matched with the rack 601. Therefore, when the water retaining clapper 4 needs to rotate to a non-working state position, external force acts on the gear 602, and the gear 602 and the rack are matched, so that the rack and the second support frame 9 integrally move together, the lower second support frame 9 integrally moves upwards, the lower water retaining clapper 4 moves upwards and can be separated from the water surface, and when the water retaining clapper 4 is in a non-working state, water flow does not act on the water retaining clapper 4, and the use requirements of different states are met.

The collecting type water flow energy engine also comprises a lock hook 70 and a chain rope 80, wherein the lock hook 70 is arranged at one end of the chain rope 80, the chain rope 80 is positioned at the outer side of the cross beam 5, and the lock hook 70 is arranged corresponding to the cross beam 5, namely, the lock hook 70 can be hooked on the cross beam 5.

When the water retaining clapper 4 needs to rotate upwards to move to a non-working position, an operator hooks the lock hook 70 on the cross beam 5 close to the operation side, the water retaining clapper 4 moves continuously under the action of water flow, the lock hook 70 moves together with the cross beam 5, the chain rope 80 is pulled to stretch, the bottom of the water retaining clapper 4 is pulled upwards, the water retaining clapper 4 is stacked, the contact area between the water retaining clapper 4 and the water flow is reduced, and the resistance applied to the water retaining clapper 4 when moving upwards is reduced.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that modifications and improvements could be made by those skilled in the art without departing from the inventive concept, which falls within the scope of the present invention.

Claims (10)

1. The converging type water flow energy engine is characterized by comprising a first chain wheel group (1), a second chain wheel group (2), a chain (3), a water retaining clapping plate (4) and a cross beam (5);

the first chain wheel group (1) is divided into two groups;

the second chain wheel groups (2) are two groups and are positioned below the first chain wheel groups (1);

the first sprocket set (1) comprises a first mounting shaft (11) and a first sprocket (12), and the first sprocket (12) is sleeved at two ends of the first mounting shaft (11);

the second sprocket set (2) comprises a second installation shaft (21) and a second sprocket (22), and the second sprocket (22) is sleeved at two ends of the second installation shaft (21);

the two chains (3) are respectively sleeved on the first chain wheel (12) and the second chain wheel (22) at the corresponding sides;

two ends of the cross beam (5) are respectively fixed on the two chains (3), and the cross beams (5) are sequentially distributed along the chains (3);

and each cross beam (5) is provided with a water retaining clapping plate (4), and the water retaining clapping plates (4) can rotate relative to the cross beams (5).

2. The converging water flow energy engine according to claim 1, further comprising a plurality of auxiliary claps (6), wherein the auxiliary claps (6) are corresponding to the water retaining claps (4), the auxiliary claps (6) are arranged at the lower part of the water retaining claps (4), and the bottom ends of the auxiliary claps (6) are flush with the bottom ends of the water retaining claps (4).

3. A converging water energy engine according to claim 2, further comprising a bracket (7), the second sprocket (22) being mounted at one end of the bracket (7), one end of the bracket (7) being rotatable about its other end.

4. A converging water flow engine according to claim 3, further comprising a first support frame (8) and a second support frame (9), wherein the first support frame (8) is provided with a first support groove (81), the second support frame (9) is provided with a second support groove (91), the first support frame (8) is located above the first sprocket (12), the second support frame (9) is located below the second sprocket (22), the second support frame (9) is connected with one end of the support frame (7), the first support frame (8) and the second support frame (9) are both two, the upper part of the chain (3) is located in the first support groove (81), and the lower part of the chain (3) is located in the second support groove (91).

5. The converging water flow engine according to claim 4, further comprising a hinge (10) and a first pull rope (20), wherein the hinge (10) is rotatably connected with two sides of the water retaining clapping plate (4), one end of the first pull rope (20) is connected with the water retaining clapping plate (4), the other end of the first pull rope is connected with the hinge (10), the hinge (10) is positioned between the two first supporting frames (8), the hinge (10) is positioned between the two second supporting frames (9), and an included angle between the hinge (10) and the first pull rope (20) is less than or equal to 50 degrees.

6. The converging water flow engine according to claim 5, further comprising a first pulley (30), wherein the first pulley (30) is sleeved at both ends of the first mounting shaft (11) and the second mounting shaft (21), a second pulley (40) is sleeved on the cross beam (5), the first pulley (30) is matched with the first supporting frame (8), and the second pulley (40) is matched with the first supporting groove (81) and the second supporting groove (91).

7. The converging water flow energy engine according to claim 1, further comprising a second stay cable (50), wherein each water blocking clapper (4) is formed by splicing a plurality of clapper units (41) in sequence along the length direction, adjacent water blocking clapper (4) are connected through the second stay cable (50), and each clapper unit (41) is connected with at least one second stay cable (50).

8. A converging water flow motor according to any one of claims 4 to 6, and further comprising a drive means (60), the drive means (60) comprising a rack (601) and a gear (602), the rack (601) being fixedly connected to the second support (9), the gear (602) being co-operating with the rack (601).

9. The water flow energy pooling engine according to any of the claims 1-8, further comprising a lock hook (70) and a chain rope (80), wherein the lock hook (70) is mounted at one end of the chain rope (80), the chain rope (80) is located at the outer side of the cross beam (5), and the lock hook (70) is arranged corresponding to the cross beam (5).

10. The concentrated water flow energy engine of claim 1, further comprising a power take-off (90), the power take-off (90) comprising a power take-off gear (901), the power take-off gear (901) being journalled on the first mounting shaft (11).