CN112726543A

CN112726543A - Wharf trash-blocking floating structure

Info

Publication number: CN112726543A
Application number: CN202011600488.3A
Authority: CN
Inventors: 李炯
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-04-30

Abstract

The invention relates to the technical field of wharf dirt blocking, in particular to a dirt blocking floating structure for a wharf, which comprises a first device, a first pipe, a second pipe, a first crawler belt, a first gear, a second device, a third pipe, a first circle, first turbine blades, an inner wall, a first spring, a space, a second crawler belt, a second gear, a third crawler belt, a fixed rod, a fourth gear, a fifth gear and buoyancy. The device can collect floating objects on water, collect the floating objects in the channel, and take the floating objects away from the device through the crawler in the channel.

Description

Wharf trash-blocking floating structure

Technical Field

The invention relates to the technical field of cleaning, in particular to a trash-blocking floating structure for a wharf.

Background

The development of science and technology greatly improves the life of people, but brings great burden to the environment on the other side, and the natural environment is gradually worsened, so people begin to pay attention to the environmental management work, wherein the river management is an important project; some residents like to throw some domestic garbage into the river channel, and the garbage can seriously pollute the river water of the river channel and finally cause the sewage to become smelly and black. However, the existing treatment device can not well collect and treat the garbage floating objects on the water surface, so that the garbage floating objects float along the water surface, and the lake surface is dirty.

Disclosure of Invention

The invention aims to solve the technical problems of interception, collection and treatment of floating objects on water.

The invention can solve the problems after starting, and is achieved by the following technical means:

a trash floating structure for a wharf comprises a first device, a first pipe, a second pipe, a first crawler belt, a first gear, a second device, a third pipe, a first circle, first turbine blades, an inner wall, a first spring, a space, a second crawler belt, a second gear, a third crawler belt, a fixed rod, a fourth gear, a fifth gear and buoyancy, wherein the first device is arranged below the left of the trash floating structure, the left side of the first device is connected with the first pipe, the second pipe is connected with the first pipe, the first gear is arranged above the second pipe, the second device is arranged behind the first gear, the third pipe is connected with the second device, the right side of the third pipe is provided with the first circle, the first turbine blades are connected with the first spring, the first spring is connected with the fixed rod, the fixed rod is fixed on the inner wall, the space is arranged below the inner wall, the third crawler belt is arranged below the space, the fifth gear is connected to the left side of the third crawler belt, the fourth gear is welded to the fifth gear, the fourth gear is connected with the first gear through the first crawler belt, the fifth gear is connected with the third gear on the right side through the third crawler belt, the third gear is connected with the second gear through the second crawler belt in a right-inclined mode, and the bottommost layer of the trash floating structure is provided with buoyancy.

Further preferred scheme: set up the battery on the first device, set up the sliding tray below the battery, the sliding tray below sets up the second circle, the third circle is connected through first pole to the second circle, set up the dead lever behind the third circle, the connecting rod is connected to third circle below, the briquetting is connected to the connecting rod below, the briquetting below sets up the check valve gasbag, the water pipe is connected on check valve gasbag right side, the water pipe left side sets up the gas pocket, the water pipe top sets up silver metal piece, silver metal piece top sets up the second spring, second spring top sets up the pearl, the check valve gasbag is with water intake pipe, rivers up touch silver metal piece and are electrolyzed into hydrogen and oxygen, the check valve gasbag is assisted to the gas pocket and is inhaled water, first turbine blade is blocked to the pearl, the second spring that the pearl is connected plays the reset effect.

Further preferred scheme: the sliding disc is provided with a disc surface, a turbine is arranged behind the disc surface, a cog wheel is embedded in the center of the disc surface, a fourth circle is welded on the surface of the disc surface and connected with a second circle through a second rod, and a pressing block is controlled to press the check valve air bag.

Further preferred scheme: the upper surface of the second device is provided with a second hole, the lower surface of the second device is provided with a first hole, a second turbine blade is arranged in the second device, the center of the second turbine blade is provided with a motor, the surface of the motor is provided with a transmission needle, the motor is fixed on the side wall, part of water is electrolyzed by electrifying the transmission needle by the motor, the transmission needle is made of silver metal blocks, and the transmission needle can rotate along with the rotation of the second turbine blade.

Has the advantages that:

after the device is started, the first power device and the second power device can be driven by the force of water flow, floating objects on water can be collected, the floating objects are collected into the channel, and the floating objects are taken away from the device through the crawler belt in the channel.

Drawings

Fig. 1 is an overall structural view of the present invention.

Fig. 2 is a top view of the overall structure of the present invention.

Fig. 3 is a schematic structural diagram of a first apparatus according to the present invention.

Fig. 4 is a schematic view of the structure of the sliding plate of the present invention.

FIG. 5 is a schematic structural diagram of a second apparatus according to the present invention.

FIG. 6 is a schematic view of the internal turbine structure of the second device of the present invention.

Fig. 7 is a schematic view of the left side part of the component structure of the present invention.

Fig. 8 is an enlarged view of the one-way valve balloon of the present invention.

Fig. 9 is a schematic view of the pore structure of the present invention.

In FIGS. 1-9: the first device 1, the first rod 101, the second circle 102, the sliding disk 103, the second rod 1031, the fourth circle 1032, the cog wheel 1033, the disk surface 1034, the turbine 1035, the silver metal block 104, the battery 105, the beads 106, the second spring 107, the air hole 108, the water pipe 109, the fixing rod 110, the third circle 111, the connecting rod 112, the check valve airbag 113, the pressing block 114, the first pipe 2, the second pipe 3, the first crawler 4, the first gear 5, the second device 6, the first hole 601, the motor 602, the transmission pin 603, the second turbine blade 604, the side wall 605, the second hole 606, the third pipe 7, the first circle 8, the first turbine blade 9, the inner wall 10, the first spring 11, the space 12, the second crawler 13, the second gear 14, the third gear 15, the third gear 16, the fixing rod 17, the fourth gear 18, the fifth gear 19, and the buoyancy F.

Detailed Description

As shown in figures 1-9:

a trash floating structure for a wharf comprises a first device 1, a first pipe 2, a second pipe 3, a first crawler belt 4, a first gear 5, a second device 6, a third pipe 7, a first circle 8, first turbine blades 9, an inner wall 10, a first spring 11, a space 12, a second crawler belt 13, a second gear 14, a third gear 15, a third crawler belt 16, a fixed rod 17, a fourth gear 18 and a fifth gear 19, wherein the first device 1 is arranged on the left lower portion of the trash floating structure, the first pipe 2 is connected on the left side of the first device 1, the second pipe 3 is connected on the first pipe 2, the first gear 5 is arranged on the second pipe 3, the second device 6 is arranged behind the first gear 5, the third pipe 7 is connected on the second device 6, the first circle 8 is arranged on the right side of the third pipe 7, the first circle 8 is connected with the two first turbine blades 9, the first turbine blades 9 are connected with the first spring 11, and the first spring 11 is connected with the fixed rod 17, the fixed rod 17 is fixed on the inner wall 10, the space 12 is arranged below the inner wall 10, the third crawler 16 is arranged below the space 12, the left side of the third crawler 16 is connected with the fifth gear 19, the fifth gear 19 is welded with the fourth gear 18, the fourth gear 18 is connected with the first gear 5 through the first crawler 4, the fifth gear 19 is connected with the third gear 15 through the third crawler 16 on the right side, and the third gear 15 is obliquely connected with the second gear 14 through the second crawler 13.

Wherein: the storage battery 105 is arranged on the first device 1, the sliding disc 103 is arranged below the storage battery 105, the second circle 102 is arranged below the sliding disc 103, the second circle 102 is connected with the third circle 111 through the first rod 101, the fixing rod 110 is arranged behind the third circle 111, the connecting rod 112 is connected below the third circle 111, the pressing block 114 is connected below the connecting rod 112, the check valve air bag 113 is arranged below the pressing block 114, the water pipe 109 is connected to the right side of the check valve air bag 113, the air hole 108 is arranged on the left side of the water pipe 109, the silver metal block 104 is arranged above the water pipe 109, the second spring 107 is arranged above the silver metal block 104, the beads 106 are arranged above the second spring 107, the check valve air bag 113 sucks water into the pipe, the water flows upwards touch the silver bead metal block 104 to be electrolyzed into hydrogen and oxygen, the air hole 108 assists the check valve 113 air bag to suck water, the first turbine blades 9 are clamped by the beads 106, and the second.

Wherein: the sliding disk 103 is provided with a disk surface 1034, a turbine 1035 is arranged behind the disk surface 1034, a cog wheel 1033 is embedded in the center of the disk surface 1034, a fourth circle 1032 is welded on the surface of the disk surface 1034, the fourth circle 1032 is connected with the second circle 102 through a second rod 1031, and the pressure block 144 is controlled to press the check valve air bag 113.

Wherein: the upper surface of the second device 6 is provided with a second hole 606, the lower surface of the second device 6 is provided with a first hole 601, the inside of the second device 6 is provided with a second turbine blade 604, the center of the second turbine blade 604 is provided with a motor 602, the surface of the motor 602 is provided with a transmission pin 603, the motor 602 is fixed on a side wall 605, the motor 602 energizes the transmission pin 603 to electrolyze part of water, the transmission pin 603 is made of silver metal blocks, and the transmission pin 603 can rotate along with the rotation of the second turbine blade 604.

The working principle is as follows:

the basic working principle is as follows: the first turbine blade 9 is impacted by the impact force generated by the floating objects drifting, the first turbine blade 9 rotates to put water flow and floating objects into the space 12, the floating objects are conveyed to the second crawler belt 13 by the third crawler belt 16, and the floating objects are conveyed out by the second crawler belt 13; the first turbine blade 9 rotates to place a water stream and flotage in the space 12, the water stream being electrolyzed by the energized silver metal block 104 into oxygen and hydrogen.

The first device 1 works according to the following principle: the water flow enters from the third pipe 7, the water flows into the second device 6 through the second hole 606, the water touches the second turbine blade 604 in the second device 6, the second turbine blade 604 is driven to rotate by the force of the water flow, the second turbine blade 604 rotates to drive the motor 602 to generate electricity, the electricity generated by the motor 602 is released to the transmission pin 603, the transmission pin 603 is electrified to electrolyze part of the water in the second device 6, the other part of the water flows into the second pipe 3 along the first hole 601, the water flow in the second pipe 3 flows into the first pipe 2, the water flow in the first pipe 2 flows into the turbine 1035, the force of the water drives the turbine 1035 to rotate, the turbine 1035 rotates to drive the cog 1033 welded with the turbine 1035, the cog 1033 rotates along with the rotation of the turbine 1035 to drive the disk surface 1034 to rotate to drive the fourth circle 1032 welded with the turbine 1035 to do circular motion, the fourth circle 1032 does circular motion to drive the third circle 111 to move up and down to drive the connecting rod 112 to move up and down, the connecting rod 112 moves up and down to drive the pressing block 114 to move up and down, the pressing block 114 moves up and down to touch the check valve air bag 113 to achieve the pressing effect, the check valve air bag 113 is pressed to suck water flow brought down by the turbine 1035 into the water pipe 109, the water flow continuously rises in the water pipe 109 to touch the silver metal block 104 powered by the storage battery 105 to be electrolyzed, and electrolyzed gas is discharged through the air hole 108.

The external principle of the floater discharging device is as follows: water flows in from the third pipe 7, water flows into the second device 6 through the second hole 606, the water touches the second turbine blade 604 of the second device 6, the second turbine blade 604 is driven to rotate by the force of the water flow, the first gear 5 welded with the second turbine blade 604 is driven to rotate by the rotation of the second turbine blade 604, the first gear 5 drives the first crawler 4 connected with the first gear 5 to rotate clockwise, the first crawler 4 drives the fourth gear 18 connected with the first crawler 4 to rotate clockwise, the fourth gear 18 drives the third crawler 16 connected with the fourth gear 18 to rotate clockwise, the third crawler 16 drives the third gear 15 connected with the third crawler 16 to rotate clockwise, the third gear 15 drives the second crawler 13 connected with the third gear 15 to rotate clockwise, and the second crawler 13 drives the second gear 14 to rotate clockwise. The floating objects are conveyed out of the equipment through the crawler.

The buoyancy principle of the equipment is as follows: the equipment is buoyant through buoyancy force F, and the buoyancy force F is made of polyethylene materials and is lower in density than water.

Claims

1. A trash-blocking buoy structure for a wharf comprises a first device (1), a first pipe (2), a second pipe (3), a first crawler belt (4), a first gear (5), a second device (6), a third pipe (7), a first circle (8), first turbine blades (9), an inner wall (10), a first spring (11), a space (12), a second crawler belt (13), a second gear (14), a third gear (15), a third crawler belt (16), a fixed rod (17), a fourth gear (18) and a fifth gear (19), wherein the first device (1) is arranged below the left side of the trash-blocking buoy structure, the first pipe (2) is connected to the left side of the first device (1), the second pipe (3) is connected to the upper side of the first pipe (2), the first gear (5) is arranged on the upper side of the second pipe (3), the second device (6) is arranged behind the first gear (5), a third pipe (7) is connected to the upper surface of the second device (6), a first circle (8) is arranged on the right side of the third pipe (7), the first circle (8) is connected with two first turbine blades (9), the first turbine blades (9) are connected with a first spring (11), the first spring (11) is connected with a fixed rod (17), the fixed rod (17) is fixed on an inner wall (10), a space (12) is arranged below the inner wall (10), a third crawler belt (16) is arranged below the space (12), a fifth gear (19) is connected to the left side of the third crawler belt (16), the fifth gear (19) is welded with a fourth gear (18), the fourth gear (18) is connected with the first gear (5) through a first crawler belt (4), the fifth gear (19) is connected with a third gear (15) on the right side through the third crawler belt (16), the third gear (15) is connected with a second gear (14) through a second crawler belt (13) in a right-oblique mode, the bottommost layer of the trash floating structure is provided with buoyancy (F).

2. The structure of claim 1, wherein: set up battery (105) on first device (1), set up sliding tray (103) below battery (105), sliding tray (103) below sets up second circle (102), third circle (111) is connected through first pole (101) in second circle (102), set up dead lever (110) behind third circle (111), connecting rod (112) is connected to third circle (111) below, briquetting ((114) is connected to connecting rod (112) below, briquetting (114) below sets up check valve gasbag (113), water pipe (109) is connected on check valve gasbag (113) right side, water pipe (109) left side sets up gas pocket (108), water pipe (109) top sets up silver metal piece (104), silver metal piece (104) top sets up second spring (107), second spring (107) top sets up pearl (106).

3. The structure of claim 2, wherein: a disc surface (1034) is arranged on the sliding disc (103), a turbine (1035) is arranged behind the disc surface (1034), a cog wheel (1033) is embedded in the center of the disc surface (1034), a fourth circle (1032) is welded on the surface of the disc surface (1034), and the fourth circle (1032) is connected with the second circle (102) through a second rod (1031).

4. The structure of claim 1, wherein: the upper surface of the second device (6) is provided with a second hole (606), the lower surface of the second device (6) is provided with a first hole (601), a second turbine blade (604) is arranged in the second device (6), the center of the second turbine blade (604) is provided with a motor (602), the surface of the motor (602) is provided with a transmission needle (603), and the motor (602) is fixed on the side wall (605).