阅读说明：本技术 一种利用风力驱动的捕鱼船 (Fishing boat driven by wind power ) 是由 李壮壮 于 2020-05-29 设计创作，主要内容包括：本发明公开了一种利用风力驱动的捕鱼船,包括船体,一种利用风力驱动的捕鱼船,包括船体,所述船体中设有锯齿空间,所述锯齿空间的左侧设有啮合空间,所述啮合空间的左侧设有开口向左的回收空间,所述回收空间的前后两侧对称设有链空间,所述啮合空间的下侧设有开口向下的捕鱼空间,所述捕鱼空间的右侧设有电机空间,所述船体中固定连接有固定杆,所述电机空间、所述捕鱼空间中设有用于撒网捕鱼的捕鱼装置,本发明是一种利用风力驱动的捕鱼船,在有风时风力发电装置可以利用风力发电,为全船提供电力,风力发电装置还可自动找到最佳的风角,可以最大限度的利用风力。(The invention discloses a fishing boat driven by wind power, which comprises a boat body, a fishing boat driven by wind power comprises a boat body, a sawtooth space is arranged in the ship body, a meshing space is arranged on the left side of the sawtooth space, a recovery space with a leftward opening is arranged on the left side of the meshing space, chain spaces are symmetrically arranged at the front side and the rear side of the recovery space, a fishing space with a downward opening is arranged at the lower side of the engaging space, the invention relates to a fishing boat driven by wind power, which is characterized in that a motor space is arranged at the right side of the fishing space, a fixed rod is fixedly connected in the boat body, and fishing devices for catching fish by netting are arranged in the motor space and the fishing space, when wind exists, the wind power generation device can utilize wind power to generate power to provide power for the whole ship, and the wind power generation device can automatically find out the optimal wind angle and can utilize the wind power to the maximum extent.)

1. A fishing boat driven by wind power comprises a boat body and is characterized in that: an utilize wind-force driven fishing ship, includes the hull, be equipped with the sawtooth space in the hull, the left side in sawtooth space is equipped with the meshing space, the left side in meshing space is equipped with the left recovery space of opening, both sides symmetry is equipped with the chain space around retrieving the space, the downside in meshing space is equipped with the downward fishing space of opening, the right side in fishing space is equipped with the motor space, fixedly connected with dead lever in the hull, the motor space be equipped with the fishing device that is used for netting the fishing in the fishing space, fishing device includes fixed mounting in the energy storage motor of the right wall of motor space, the energy storage motor well-motion is connected with the through-shaft, the through-shaft with rotate between the left and right walls in motor space to be connected, the through-shaft extends to run through the left wall in motor space and enters into in the removal space, the penetrating shaft is rotatably connected with the right wall of the moving space, a rotating main gear is fixedly connected to the penetrating shaft, a transferring shaft is rotatably connected between the left wall and the right wall of the moving space, a rotating pinion is fixedly connected to the transferring shaft, the rotating pinion is meshed with the rotating main gear, sliding cylinders are fixedly connected to the transferring shaft in a bilateral symmetry manner, a door opening sliding rod is slidably connected to each sliding cylinder, two rebounding spaces are arranged in the front side of the moving space in a bilateral symmetry manner, a door opening sliding block is respectively slidably connected to each rebounding space, a strong spring is respectively connected between each door opening sliding block and one side wall of each rebounding space, a returning space is respectively arranged in each door opening sliding block, a clamping sliding rod is respectively slidably connected to each returning space, and miniature springs are respectively vertically symmetrically arranged between each clamping sliding rod and one side wall of each returning space, each clamping slide bar extends towards one side and penetrates through one side wall of the returning space respectively to enter the returning space, each clamping slide bar is connected with the left wall and the right wall of the returning space in a sliding manner respectively, each clamping slide bar continues to extend towards one side and penetrates through one side wall of the returning space respectively to enter the moving space, each clamping slide bar is connected with one side wall of the moving space in a sliding manner respectively, each clamping slide bar extends towards the other side and penetrates through the other side wall of the returning space respectively to enter the fishing space, each clamping slide bar is connected with one side face of the door opening slide block in a sliding manner respectively, a balancing weight is arranged in the fishing space, each clamping slide bar is connected with the balancing weight in a butting manner respectively, and one side of each clamping slide bar is hinged with the door opening slide bar respectively, the utility model discloses a fishing device, including fishing space, wheel motor, every, wheel motor, wheel space, the wheel motor sets firmly line wheel motor, every in the line wheel motor respectively power connection have a motor shaft, every on the motor shaft respectively fixedly connected with line wheel, the fishing space is equipped with the fishing net, every the line wheel respectively with be connected with the elastic wire between the left and right sides of fishing net, the fishing net with bilateral symmetry's between the balancing weight is connected wired, the elasticity of powerful spring is greater than miniature spring, the sawtooth space be equipped with the protection device who is used for protecting wind power generation equipment in the meshing space, so, be equipped with the wind power generation device who is used for wind power generation on the dead lever, the meshing space retrieve the recovery unit who is equipped with the rubbish on retrieving the river between the space, be equipped with the drive arrangement.

2. A fishing vessel driven by wind power according to claim 1, wherein: the protection device comprises a rotating motor fixed on the rear wall of the meshing space, a sector gear shaft is dynamically connected in the rotating motor, the sector gear shaft is rotatably connected with the rear wall of the meshing space, a sector gear is fixedly connected to the sector gear shaft, a band saw tooth rack is slidably connected to the upper wall of the meshing space, the sector gear is meshed with the band saw tooth rack, the band saw tooth rack extends rightwards to penetrate through the right wall of the meshing space to enter the sawtooth space, the band saw tooth rack is slidably connected with the left wall of the band saw tooth rack, sawteeth are arranged on the right side of the band saw tooth rack, a sawtooth sliding rod is slidably connected to the right wall of the sawtooth space, sawteeth are arranged on the left side of the sawtooth sliding rod, sawteeth on the left side of the sawtooth sliding rod are meshed with the sawteeth on the right side of the band saw tooth rack, and a transverse sliding groove is fixedly arranged in the ship, be equipped with the spout in the lateral sliding groove, sliding connection has the slide bar in the dead lever, the right-hand member of slide bar articulates there is the lifter, the sawtooth slide bar extends right and runs through the right wall in sawtooth space enters into in the spout, just the sawtooth slide bar with sliding connection between the upper and lower wall of spout, the right side of sawtooth slide bar with the left side of slide bar is articulated.

3. A fishing vessel driven by wind power according to claim 1, wherein: the wind power generation device comprises a lifting rod rotatably mounted on the fixed rod, an air box is fixedly connected to the lifting rod, a fan blade shaft is rotatably connected to the air box, fan blades, an inertia box and a transmission main bevel gear are fixedly connected to the left, the middle and the right sides of the fan blade shaft respectively, a small hydraulic cylinder is arranged in the air box, a jacking sliding rod is slidably connected to the small hydraulic cylinder, a wheel disc shaft is rotatably connected to the bottom wall of the air box, a shaft sleeve is slidably connected to the upper side of the wheel disc shaft, a transmission auxiliary bevel gear is fixedly connected to the shaft sleeve and can be meshed with the transmission main bevel gear, a wheel disc is fixedly connected to the lower side of the wheel disc shaft, a rotating wheel is rotatably connected to the fixed rod, a telescopic rod is hinged between the wheel disc and the rotating wheel, a telescopic spring is arranged in the telescopic rod, and a water pipe is arranged on, the utility model discloses a wind power generation device, including water pipe roof fixedly connected with suction pump, the roof fixedly connected with switching-over valve of suction pump, the right side of bellows has set firmly the generator, the water pipe with small-size hydraulic cylinder is connected with right water pipe.

4. A fishing vessel driven by wind power according to claim 1, wherein: the recovery unit includes slidable mounting and is in Y type slide bar in the meshing space, Y type slide bar with the upper and lower symmetry be equipped with the resilience spring between the left wall in meshing space, both ends articulate respectively around Y type slide bar right side has the chain, the opposite side of chain articulates on the deck, retrieve the roof fixedly connected with lead screw motor in space, power connection has the lead screw among the lead screw motor, the lead screw with rotate between the upper and lower wall of lead screw motor and be connected, threaded connection has the thread block on the lead screw, be equipped with big jar in the thread block, sliding connection has L type slide bar in the big jar, the left side of hull articulates there is the deck, the deck is one-way liquid stream board, the water pipe with be connected with left water pipe between the big jar.

5. A fishing vessel driven by wind power according to claim 1, wherein: the driving device comprises a paddle shaft which is installed on the right side face of the energy storage motor in a power mode, the paddle shaft is connected with the right side face of the ship body in a rotating mode, and a paddle is fixedly connected to the paddle shaft.

Technical Field

The invention relates to the field, in particular to a fishing boat driven by wind power.

Background

Wind energy is available energy provided for human beings due to work done by air flow, belongs to renewable energy, kinetic energy of the air flow is called that the air flow rate of the wind energy is higher, the kinetic energy is larger, people can convert the kinetic energy of the wind into rotary motion by a windmill to push a generator to generate electric power, the method is to transmit the rotary power of a rotor to the generator through a transmission shaft, but the wind energy is not a main energy source for most countries, the utilization rate of the wind energy by the human beings is extremely low, machines relying on the wind energy are almost not available, and good energy sources are not utilized.

Disclosure of Invention

The present invention is directed to a fishing vessel driven by wind power to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: an utilize wind-force driven fishing ship, includes the hull, be equipped with the sawtooth space in the hull, the left side in sawtooth space is equipped with the meshing space, the left side in meshing space is equipped with the left recovery space of opening, both sides symmetry is equipped with the chain space around retrieving the space, the downside in meshing space is equipped with the downward fishing space of opening, the right side in fishing space is equipped with the motor space, fixedly connected with dead lever in the hull, the motor space be equipped with the fishing device that is used for netting the fishing in the fishing space, fishing device includes fixed mounting in the energy storage motor of the right wall of motor space, the energy storage motor well-motion is connected with the through-shaft, the through-shaft with rotate between the left and right walls in motor space to be connected, the through-shaft extends to run through the left wall in motor space and enters into in the removal space, the penetrating shaft is rotatably connected with the right wall of the moving space, a rotating main gear is fixedly connected to the penetrating shaft, a transferring shaft is rotatably connected between the left wall and the right wall of the moving space, a rotating pinion is fixedly connected to the transferring shaft, the rotating pinion is meshed with the rotating main gear, sliding cylinders are fixedly connected to the transferring shaft in a bilateral symmetry manner, a door opening sliding rod is slidably connected to each sliding cylinder, two rebounding spaces are arranged in the front side of the moving space in a bilateral symmetry manner, a door opening sliding block is respectively slidably connected to each rebounding space, a strong spring is respectively connected between each door opening sliding block and one side wall of each rebounding space, a returning space is respectively arranged in each door opening sliding block, a clamping sliding rod is respectively slidably connected to each returning space, and miniature springs are respectively vertically symmetrically arranged between each clamping sliding rod and one side wall of each returning space, each clamping slide bar extends towards one side and penetrates through one side wall of the returning space respectively to enter the returning space, each clamping slide bar is connected with the left wall and the right wall of the returning space in a sliding manner respectively, each clamping slide bar continues to extend towards one side and penetrates through one side wall of the returning space respectively to enter the moving space, each clamping slide bar is connected with one side wall of the moving space in a sliding manner respectively, each clamping slide bar extends towards the other side and penetrates through the other side wall of the returning space respectively to enter the fishing space, each clamping slide bar is connected with one side face of the door opening slide block in a sliding manner respectively, a balancing weight is arranged in the fishing space, each clamping slide bar is connected with the balancing weight in a butting manner respectively, and one side of each clamping slide bar is hinged with the door opening slide bar respectively, the utility model discloses a fishing device, including fishing space, wheel motor, every, wheel motor, wheel space, the wheel motor sets firmly line wheel motor, every in the line wheel motor respectively power connection have a motor shaft, every on the motor shaft respectively fixedly connected with line wheel, the fishing space is equipped with the fishing net, every the line wheel respectively with be connected with the elastic wire between the left and right sides of fishing net, the fishing net with bilateral symmetry's between the balancing weight is connected wired, the elasticity of powerful spring is greater than miniature spring, the sawtooth space be equipped with the protection device who is used for protecting wind power generation equipment in the meshing space, so, be equipped with the wind power generation device who is used for wind power generation on the dead lever, the meshing space retrieve the recovery unit who is equipped with the rubbish on retrieving the river between the space, be equipped with the drive arrangement.

Preferably, the protection device comprises a rotating motor fixed on the rear wall of the meshing space, a sector gear shaft is connected to the rotating motor in a power connection mode, the sector gear shaft is connected with the rear wall of the meshing space in a rotating mode, a sector gear is fixedly connected to the sector gear shaft, a band saw tooth rack is connected to the upper wall of the meshing space in a sliding mode, the sector gear is meshed with the band saw tooth rack, the band saw tooth rack extends rightwards to penetrate through the right wall of the meshing space to enter the sawtooth space, the band saw tooth rack is connected with the left wall of the band saw tooth rack in a sliding mode, sawteeth are arranged on the right side of the band saw tooth rack, a sawtooth sliding rod is connected to the right wall of the sawtooth space in a sliding mode, sawteeth are arranged on the left side of the sawtooth sliding rod, and the sawteeth on the left side of the sawtooth sliding rod are meshed, the hull in the hull has set firmly the lateral sliding groove, be equipped with the spout in the lateral sliding groove, sliding connection has the slide bar in the dead lever, the right-hand member of slide bar articulates there is the lifter, the sawtooth slide bar extends right and runs through the right wall in sawtooth space enters into in the spout, just the sawtooth slide bar with sliding connection between the upper and lower wall of spout, the right side of sawtooth slide bar with the left side of slide bar is articulated.

Preferably, the wind power generation device comprises a lifting rod rotatably mounted on the fixed rod, an air box is fixedly connected to the lifting rod, a fan blade shaft is rotatably connected to the air box, a fan blade, an inertia box and a transmission main bevel gear are respectively and fixedly connected to the left, the middle and the right sides of the fan blade shaft, a small hydraulic cylinder is arranged in the air box, a jacking slide rod is slidably connected to the small hydraulic cylinder, a wheel disc shaft is rotatably connected to the bottom wall of the air box, a shaft sleeve is slidably connected to the upper side of the wheel disc shaft, a transmission auxiliary bevel gear is fixedly connected to the shaft sleeve and can be meshed with the transmission main bevel gear, a wheel disc is fixedly connected to the lower side of the wheel disc shaft, a rotating wheel is rotatably connected to the fixed rod, a telescopic rod is hinged between the wheel disc and the rotating wheel, a telescopic spring is arranged in the telescopic rod, and a water pipe is arranged, the utility model discloses a wind power generation device, including water pipe roof fixedly connected with suction pump, the roof fixedly connected with switching-over valve of suction pump, the right side of bellows has set firmly the generator, the water pipe with small-size hydraulic cylinder is connected with right water pipe.

Preferably, the recovery device comprises a Y-shaped sliding rod which is slidably mounted in the meshing space, the Y-shaped sliding rod and the left wall of the meshing space are provided with rebound springs in an up-down symmetrical mode, the front end and the rear end of the right side of the Y-shaped sliding rod are respectively hinged with a chain, the other side of each chain is hinged on the ship board, the top wall of the recovery space is fixedly connected with a lead screw motor, a lead screw is connected in the lead screw motor in a power mode and is rotatably connected with the upper wall and the lower wall of the lead screw motor, a threaded block is connected on the lead screw in a threaded mode, a large water cylinder is arranged in the threaded block, an L-shaped sliding rod is slidably connected in the large water cylinder, the left side of the ship body is hinged with the ship board, the ship board is one-way flow board.

Preferably, in one embodiment, the driving device comprises a paddle shaft which is power-mounted on the right side surface of the energy storage motor, the paddle shaft is rotatably connected with the right side surface of the ship body, and a paddle is fixedly connected to the paddle shaft.

In conclusion, the beneficial effects of the invention are as follows: the invention relates to a fishing boat driven by wind power, a wind power generation device can generate power by utilizing the wind power when wind exists, the wind power generation device can provide power for the whole boat, the wind power generation device can also automatically find out the optimal wind angle, the wind power can be utilized to the maximum extent, the economic cost is greatly saved, the automatic fishing device is arranged in the boat, the automatic fishing of fish can be completed, the workload of people is reduced, the working efficiency is improved, the wind power generation device can be protected by a protection device, the wind power generation device is lifted when the wind speed is low, and the wind power generation device is reduced when the wind speed is too high, so that the collecting device can carry garbage on the river surface.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic overall sectional front view of a fishing vessel driven by wind power according to the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1 in accordance with the present invention;

fig. 4 is an enlarged view of the invention at C in fig. 1.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, front and rear directions described below correspond to the front, back, left, right, top and bottom directions of the view direction of fig. 1, fig. 1 is a front view of the apparatus of the present invention, and the directions shown in fig. 1 correspond to the front, back, left, right, top and bottom directions of the apparatus of the present invention.

Referring to fig. 1-4, an embodiment of the present invention is shown: the utility model provides an utilize wind-force driven fishing boat, includes hull 21, be equipped with sawtooth space 22 in the hull 21, the left side of sawtooth space 22 is equipped with engagement space 23, engagement space 23's left side is equipped with opening left recovery space 26, the front and back bilateral symmetry of retrieving space 26 is equipped with chain space 25, engagement space 23's downside is equipped with opening decurrent fishing space 27, fishing space 27's right side is equipped with motor space 28, fixedly connected with dead lever 74 in the hull 21, motor space 28 be equipped with the fishing device 104 that is used for the netting fishing in fishing space 27, fishing device 104 includes fixed mounting in motor space 28 right wall energy-storing motor 53, energy-storing motor 53 is middle-dynamic connection has through-shaft 56, through-shaft 56 with rotate between the left and right walls of motor space 28 and be connected, the penetrating shaft 56 extends leftwards to penetrate through the left wall of the motor space 28 to enter the moving space 63, the penetrating shaft 56 is rotatably connected with the right wall of the moving space 63, a rotating main gear 57 is fixedly connected to the penetrating shaft 56, a transferring shaft 58 is rotatably connected between the left wall and the right wall of the moving space 63, a rotating auxiliary gear 60 is fixedly connected to the transferring shaft 58, the rotating auxiliary gear 60 is meshed with the rotating main gear 57, sliding cylinders 61 are fixedly connected to the transferring shaft 58 in a left-right symmetrical manner, a door opening sliding rod 62 is slidably connected to each sliding cylinder 61, two rebounding spaces 67 are symmetrically arranged on the front side of the moving space 63 in the left-right manner, a door opening sliding block 59 is slidably connected to each rebounding space 67, and a strong spring 49 is connected between each door opening sliding block 59 and one side wall of each rebounding space 67, each door opening slide block 59 is respectively provided with a returning space 47, each returning space 47 is respectively connected with a clamping slide bar 48 in a sliding manner, each clamping slide bar 48 is respectively and symmetrically arranged with a miniature spring 51 on the upper and lower sides of one side wall of the returning space 47, each clamping slide bar 48 extends towards one side and respectively penetrates through one side wall of the returning space 47 to enter the rebounding space 67, each clamping slide bar 48 is respectively and slidably connected with the left and right walls of the rebounding space 67, each clamping slide bar 48 continuously extends towards one side and respectively penetrates through one side wall of the rebounding space 67 to enter the moving space 63, each clamping slide bar 48 is respectively and slidably connected with one side wall of the moving space 63, each clamping slide bar 48 extends towards the other side and respectively penetrates through the other side wall of the returning space 47 to enter the fishing space 27, each clamping slide bar 48 is respectively connected with one side surface of the door opening slide block 59 in a sliding manner, a balancing weight 46 is arranged in the fishing space 27, each clamping slide bar 48 is respectively abutted against the balancing weight 46, one side of each clamping slide bar 48 is respectively hinged with the door opening slide bar 62, reel motors 71 are fixedly arranged on the rear wall of the fishing space 27 in a bilateral symmetry manner, a motor shaft 69 is respectively and dynamically connected in each reel motor 71, a reel 70 is respectively and fixedly connected on each motor shaft 69, the fishing space 27 is provided with the fishing net 52, elastic wires 72 are respectively connected between each reel 70 and the left side and the right side of the fishing net 52, the fishing net 52 and the balancing weight 46 are respectively and symmetrically connected with wires 77, the elastic force of the strong spring 49 is greater than that of the micro spring 51, a protection device 103 for protecting wind power generation equipment is arranged in the sawtooth space 22 and the meshing space 23, the fixing rod 74 is provided with a wind power generation device 102 for wind power generation, a recovery device 101 for recovering river garbage is arranged between the meshing space 23 and the recovery space 26, and a driving device 105 for driving the ship to move is arranged in the motor space 28.

In addition, in one embodiment, the protection device 103 includes a rotating motor 81 fixed on the rear wall of the engaging space 23, a sector gear shaft 40 is dynamically connected in the rotating motor 81, the sector gear shaft 40 is rotatably connected with the rear wall of the engaging space 23, a sector gear 39 is fixedly connected to the sector gear shaft 40, a rack with saw teeth 38 is slidably connected to the upper wall of the engaging space 23, the sector gear 39 is engaged with the rack with saw teeth 38, the rack with saw teeth 38 extends rightward to penetrate through the right wall of the engaging space 23 to enter the sawtooth space 22, the rack with saw teeth 38 is slidably connected to the left wall of the rack with saw teeth 38, saw teeth are arranged on the right side of the rack with saw teeth 38, slide rods 37 are slidably connected to the right wall of the sawtooth space 22, and saw teeth are arranged on the left side of the slide rods 37, the sawtooth on the left side of the sawtooth sliding rod 37 is meshed with the sawtooth on the right side of the rack with saw teeth 38, a transverse sliding groove 73 is fixedly arranged in the ship body 21, a sliding groove 82 is arranged in the transverse sliding groove 73, a sliding rod 66 is connected in the fixing rod 74 in a sliding manner, a lifting rod 75 is hinged to the right end of the sliding rod 66, the sawtooth sliding rod 37 extends rightwards to penetrate through the right wall of the sawtooth space 22 to enter the sliding groove 82, the sawtooth sliding rod 37 is connected with the upper wall and the lower wall of the sliding groove 82 in a sliding manner, the right side of the sawtooth sliding rod 37 is hinged to the left side of the sliding rod 66, when the wind speed is too high, a protection device 103 is started, a rotating motor 81 is started, a sector gear shaft 40 and a sector gear 39 are rotated, the rack with saw teeth 38 is moved leftwards, the sliding rod 37 is moved leftwards, the left side of the sliding rod 66 is moved right, thereby causing the lifter bar 75 to move downward to lower the height.

In addition, in one embodiment, the wind power generating device 102 includes a lifting rod 75 rotatably mounted on the fixed rod 74, an air box 90 is fixedly connected to the lifting rod 75, a fan shaft 87 is rotatably connected to the air box 90, a fan blade 86, an inertia box 88 and a transmission main bevel gear 89 are respectively fixedly connected to the left, middle and right sides of the fan shaft 87, a small hydraulic cylinder 97 is disposed in the air box 90, a pushing slide rod 98 is slidably connected to the small hydraulic cylinder 97, a wheel disc shaft 96 is rotatably connected to the bottom wall of the air box 90, a shaft sleeve 83 is slidably connected to the upper side of the wheel disc shaft 96, a transmission auxiliary bevel gear 99 is fixedly connected to the shaft sleeve 83, the transmission auxiliary bevel gear 99 can be engaged with the transmission main bevel gear 89, a wheel disc 95 is fixedly connected to the lower side of the wheel disc shaft 96, a rotating wheel 92 is rotatably connected to the fixed rod 74, a telescopic rod 93 is hinged between the wheel disc 95 and the rotating wheel 92, the telescopic rod 93 is internally provided with a telescopic spring 94, the bottom wall of the ship body 21 is provided with a water pipe 29, the top wall of the water pipe 29 is fixedly connected with a water pump 30, the top wall of the water pump 30 is fixedly connected with a reversing valve 31, the right side surface of the air box 90 is fixedly provided with a generator 80, the water pipe 29 and the small hydraulic cylinder 97 are connected with a right water pipe 65, when wind blows, the fan blades 86 are driven by the wind to rotate, so that the fan blade shaft 87 drives the fan blades 86 to rotate faster due to the uneven mass of the inertia box 88, the generator 80 generates more electric power, when the optimal wind angle needs to be found, the reversing valve 31 connects the water pipe 29 and the small hydraulic cylinder 97, the water pump 30 is started, so that water enters the small hydraulic cylinder 97 through the right water pipe 65, and the jacking sliding rod 98 moves upwards, therefore, the shaft sleeve 83 moves upwards, the transmission secondary bevel gear 99 is meshed with the transmission main bevel gear 89, the rotation of the fan blade shaft 87 drives the transmission main bevel gear 89 to rotate, the transmission secondary bevel gear 99, the shaft sleeve 83, the wheel disc shaft 96 and the wheel disc 95 are driven to rotate, the telescopic rod 93 stretches and retracts to find the angle of the optimal wind power, and the power is supplied to the whole ship.

In addition, in one embodiment, the recovery device 101 includes a Y-shaped sliding rod 41 slidably installed in the engagement space 23, the Y-shaped sliding rod 41 and the left wall of the engagement space 23 are provided with springback springs 42 in an up-down symmetrical manner, the front end and the rear end of the right side of the Y-shaped sliding rod 41 are respectively hinged with a chain 43, the other side of the chain 43 is hinged on the boat deck 44, the top wall of the recovery space 26 is fixedly connected with a lead screw motor 36, a lead screw 45 is connected to the lead screw motor 36 through power, the lead screw 45 is rotatably connected to the upper and lower walls of the lead screw motor 36, a screw block 35 is screwed on the lead screw 45, a large water tank 34 is provided in the screw block 35, an L-shaped sliding rod 33 is slidably connected in the large water tank 34, the left side of the hull 21 is hinged with the boat deck 44, the boat deck 44 is a one-way liquid flow plate, and a left water pipe 32 is, when there is garbage on the river, the rotating motor 81 is started to rotate the sector shaft 40 and the sector gear 39, so that the sector gear 39 is engaged with the Y-shaped sliding rod 41, so that the Y-shaped sliding rod 41 is moved leftward, so that the chain 43 is moved leftward, so that the boat deck 44 is opened, the direction changing valve 31 connects the large water tank 34 with the water pipe 29, the suction pump 30 is started to allow water to enter the large water tank 34 through the left water pipe 32, so that the L-shaped sliding rod 33 is moved leftward, the lead screw motor 36 is started to allow the screw block 35 to move downward, so that the garbage is framed, the suction pump 30 is started to allow water to enter the left water pipe 32 through the large water tank 34, so that the L-shaped sliding rod 33 is moved rightward, so that the garbage is taken into the recovery space 26, the rotation motor 81 is activated so that the sector shaft 40, the sector gear 39 are rotated so that the sector gear 39 is disengaged from the Y-shaped slide 41, the return of the rebound spring 42 causing the Y-shaped slide 41 to move to the right, causing the chain 43 to move to the right, closing the paddle 44.

In addition, in one embodiment, the driving device 105 includes a paddle shaft 55 that is power-mounted on the right side of the energy storage motor 53, the paddle shaft 55 is rotatably connected to the right side of the hull 21, a paddle 54 is fixedly connected to the paddle shaft 55, and when it is necessary to drive the boat, the energy storage motor 53 is reversely activated to rotate the paddle shaft 55, so as to rotate the paddle 54, thereby moving the boat.

In the initial state, the screw block 35 is positioned above the recovery space 26, and the sector gear 39 is engaged with the rack 38 with saw teeth.

When wind exists, the wind drives the fan blades 86 to rotate, so that the fan blade shaft 87 drives the fan blades 86 to rotate faster due to the uneven mass of the inertia box 88, the generator 80 can generate more electric power, when an optimal wind angle needs to be found, the reversing valve 31 connects the water pipe 29 with the small hydraulic cylinder 97, the water suction pump 30 is started, so that water enters the small hydraulic cylinder 97 through the right water pipe 65, the jacking sliding rod 98 moves upwards, the shaft sleeve 83 moves upwards, the transmission auxiliary bevel gear 99 is meshed with the transmission main bevel gear 89, the rotation of the fan blade shaft 87 drives the transmission main bevel gear 89 to rotate, the transmission auxiliary bevel gear 99, the shaft sleeve 83, the wheel disc shaft 96 and the wheel disc 95 are driven to rotate, the wind power telescopic rod 93 stretches and finds the optimal angle, power is supplied to a whole ship, the energy storage motor 53 is reversely started, and the ship shaft 55 is driven to rotate, thereby causing the paddles 54 to rotate and thereby move the boat.

When the wind is too strong, the protection device 103 is activated to start the rotating motor 81, so that the sector gear shaft 40 and the sector gear 39 rotate, the rack with saw teeth 38 moves leftwards, the sawtooth sliding rod 37 moves leftwards, the left end of the sliding rod 66 moves leftwards, the right end moves downwards, and the lifting rod 75 moves downwards to reduce the height.

When fishing is required, the energy storage motor 53 is started in the forward direction to drive the penetrating shaft 56 to rotate, thereby driving the rotating main gear 57, the rotating pinion 60 and the step shaft 58 to rotate, thereby driving the two sliding drums 61 to rotate, thereby driving the two door-opening sliding rods 62 to move towards both sides, thereby driving the two clamping sliding rods 48 to move towards both sides first, thereby enabling the counterweight block 46 to move downwards, thereby driving the two door-opening sliding blocks 48 to move towards both sides, thereby opening the fishing space 27, the two reel motors 71 are started in the reverse direction, thereby rotating the two motor shafts 69, thereby rotating the two reels 70, thereby enabling the elastic wires 72 to be loosened, and after the fishing net is caught by the weight of the counterweight block 46, the two reel motors 71 are started in the forward direction, thereby rotating the two motor shafts 69, thereby rotating the two reels 70, thereby causing the elastic thread 72 to tighten and pull back the fishing net, and the energy storage motor 53 to be started forward, thereby driving the penetrating shaft 56 to rotate, thereby driving the rotating main gear 57, the rotating pinion 60, and the step shaft 58 to rotate, thereby driving the two sliding cylinders 61 to rotate, thereby causing the two door opening sliding rods 62 to move toward the middle, thereby causing the two clamping sliding rods 48 to move toward the middle first, causing the clamping sliding rods 48 to abut against the counterweight 46 to clamp the counterweight 46, and causing the two clamping sliding rods 48 to move toward the middle, thereby driving the two door opening sliding blocks 59 to move toward the middle, thereby closing the fishing space 27.

When there is rubbish on the river, the rotation motor 81 is started to rotate the sector shaft 40, the sector gear 39, and thus the sector gear 39 is engaged with the Y-shaped slide bar 41, and thus the Y-shaped slide bar 41 is moved leftward, and thus the chain 43 is moved leftward, and thus the boat deck 44 is opened, the direction change valve 31 connects the large water tank 34 with the water pipe 29, the suction pump 30 is started to allow water to enter the large water tank 34 through the left water pipe 32, and thus the L-shaped slide bar 33 is moved leftward, the lead screw motor 36 is started, and thus the screw block 35 is moved downward, and thus the rubbish is framed, the suction pump 30 is started to allow water to enter the left water pipe 32 through the large water tank 34, and thus the L-shaped slide bar 33 is moved rightward, and thus the rubbish is taken into the rubbish collection space 26, the rotation motor 81 is started to rotate the sector shaft 40, the sector gear 39, and thus the sector gear 39 is disengaged from the Y-shaped slide bar 41, the return of the resilient spring 42 causes the Y-shaped slide rod 41 to move to the right, causing the chain 43 to move to the right, closing the paddle 44.

The invention has the beneficial effects that: the invention relates to a fishing boat driven by wind power, a wind power generation device can generate power by utilizing the wind power when wind exists, the wind power generation device can provide power for the whole boat, the wind power generation device can also automatically find out the optimal wind angle, the wind power can be utilized to the maximum extent, the economic cost is greatly saved, the automatic fishing device is arranged in the boat, the automatic fishing of fish can be completed, the workload of people is reduced, the working efficiency is improved, the wind power generation device can be protected by a protection device, the wind power generation device is lifted when the wind speed is low, and the wind power generation device is reduced when the wind speed is too high, so that the collecting device can carry garbage on the river surface.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.