CN113753986A - Photocatalytic degradation device based on convenient taking and placing of water environment pollutants - Google Patents

Abstract

The invention discloses a photocatalytic degradation device based on convenient taking and placing of water environment pollutants, and belongs to the technical field of photocatalytic degradation devices.

Description

Photocatalytic degradation device based on convenient taking and placing of water environment pollutants

Technical Field

The invention relates to a photocatalytic degradation device, in particular to a photocatalytic degradation device based on convenient taking and placing of water environment pollutants, and belongs to the technical field of photocatalytic degradation devices.

Background

The photocatalyst is a substance which does not change under the irradiation of light and can promote chemical reaction, and the photocatalyst utilizes the energy required by the chemical reaction converted from the light energy existing in nature to generate the catalytic action, so that the surrounding oxygen and water molecules are excited into free negative ions with extremely high oxidizing power.

Almost all organic substances and partial inorganic substances harmful to human bodies and environment can be decomposed, not only can the reaction be accelerated, but also the natural definition can be applied, and the resource waste and the additional pollution formation are not caused.

The most representative example is "photosynthesis" of plants, which absorbs carbon dioxide and converts light energy into oxygen and organic substances.

Use on can't be applicable to industrial equipment when carrying out photocatalysis to pollutant sewage among the prior art, ground all around a lot of industrial equipment is very uneven not convenient to placing of photocatalytic degradation device, secondly the photocatalytic degradation body is the ash that falls easily for a long time when carrying out photocatalysis, lead to catalyzed efficiency to reduce, fluid can not carry out the waste that good utilization leads to the energy when carrying out the confession liquid and going out the liquid in addition, secondly the light can not carry out good gathering when carrying out photocatalytic degradation, design a photocatalytic degradation device based on convenient getting of water environment pollutant for this reason and optimize above-mentioned problem.

Disclosure of Invention

The invention mainly aims to provide a photocatalytic degradation device based on convenient taking and placing of water environment pollutants, the device is carried to the place close to a factory with sufficient sunlight, then an electric lifting support leg is started to adjust a support bottom plate to be contacted with the ground, a fixing screw penetrates through an arc-shaped clamping groove meshing socket for fixing, a sewage pipe of the factory is communicated through a liquid suction pump, the liquid suction pump is started to enable the liquid suction pump to enable sewage to pass through a second end groove and a second side fixing frame and drive a second power generation fan blade to generate power, the sewage entering the second side fixing frame enters a photocatalytic degradation pipe body, the sewage is filtered and subjected to photocatalytic degradation through the photocatalytic degradation pipe body and a filter screen, then the sewage is discharged into a first side fixing frame and flows into a first end groove through the first side fixing frame to drive the first power generation fan blade to rotate to generate power, a rolling motor is started to drive a rotating rod to rotate, the driving gear is driven to rotate through the rotating rod, the transmission gear is driven to move through the driving gear, the photocatalytic degradation tube body is driven to rotate through the transmission gear to carry out photocatalytic degradation, the angle adjusting motor is started to drive the L-shaped side frame to rotate, the arc-shaped light gathering plate is driven through the L-shaped side frame to carry out position adjustment, sunlight can be matched to reflect light in different directions to carry out photocatalytic degradation on the photocatalytic degradation tube body, after the photocatalytic degradation tube body is used for a long time, a cleaning liquid adding valve can be opened due to falling ash of the photocatalytic degradation tube body, cleaning liquid is sprayed onto the photocatalytic degradation tube body, meanwhile, the horizontal moving motor is started to drive the sliding block to move on the horizontal hollow plate to uniformly spray, and the electric lifting rod is started again to enable the cleaning strip to fall to the arc-shaped clamping plate clamp sleeve to move and clean outside the photocatalytic degradation tube body.

The purpose of the invention can be achieved by adopting the following technical scheme:

a photocatalytic degradation device based on convenient taking and placing of water environment pollutants comprises a first side fixing frame and a second side fixing frame, wherein a photocatalytic degradation pipe body assembly is installed on the inner side of the first side fixing frame through a sealing ring, the other end of the photocatalytic degradation pipe body assembly is inserted into the inner side of the second side fixing frame, a gear linkage assembly capable of driving the photocatalytic degradation pipe body assembly to rotate is arranged at one end, located on the inner side of the second side fixing frame, of the photocatalytic degradation pipe body assembly, a gear driving assembly capable of driving the gear linkage assembly to move is installed on the outer side of the second side fixing frame, a condensing plate assembly capable of being adjusted in a rotating mode is installed at the middle of the bottom of the second side fixing frame and the first side fixing frame, electric lifting supporting legs are installed at two ends of the bottom of the second side fixing frame and the first side fixing frame, an adjusting supporting plate assembly is installed at the output end of the electric lifting supporting legs, and a power generation liquid outlet assembly is arranged at one end of the first side fixing frame, the one end of second side mount is equipped with feed liquor electricity generation subassembly, first side mount top middle part department installs L type frame subassembly, the interior top of L type frame subassembly is equipped with horizontal adjustment drive assembly, horizontal adjustment drive assembly's outside cover is equipped with the sliding block, electric lift rod is installed to the bottom of sliding block, the clearance strip is installed to electric lift rod's output, and be equipped with clearance kelly subassembly at the equidistant clearance card pole subassembly that is equipped with in the top of clearance strip, L type connecting plate is installed to the lateral part of clearance strip, and install through L type connecting plate and wash the board subassembly.

Preferably, photocatalytic degradation body subassembly includes photocatalytic degradation body, the filter screen, connecting cylinder and liquid feeding pipe, the inboard of sealing ring is installed photocatalytic degradation body, the other end intercommunication of photocatalytic degradation body has the connecting cylinder, the one end intercommunication that photocatalytic degradation body was kept away from to the connecting cylinder has the liquid feeding pipe, and the inside intercommunication of liquid feeding pipe and second side mount, the filter screen is installed to the equidistant inside of photocatalytic degradation body, and the inside of filter screen and the inner wall of photocatalytic degradation body have all been laid photocatalytic degradation agent.

Preferably, the gear linkage assembly comprises a transmission gear and a transmission gear belt, the transmission gear is installed on the outer side of the connecting cylinder, the transmission gear belt is sleeved on the outer side of the transmission gear, and the inner side of the transmission gear belt is meshed with the connecting cylinder.

Preferably, the gear driving assembly comprises a rotating rod, a driving gear and a rolling motor, the rolling motor is installed at the end of the outer side of the second side fixing frame, the rotating rod penetrating through the second side fixing frame is installed at the output end of the rolling motor, the driving gear is installed at the end of the rotating rod penetrating through the second side fixing frame, and the driving gear is located on the inner side of the conveying gear belt and meshed with the conveying gear belt.

Preferably, the light condensing plate assembly comprises an angle adjusting motor, an L-shaped side frame, an arc light condensing plate and a side bottom plate, the side bottom plate is installed at the middle part of the bottom of the second side fixing frame and the first side fixing frame, the L-shaped side frame is hinged to the inner side of the side bottom plate, the arc light condensing plate is installed at the inner end part of the L-shaped side frame and located below the photocatalytic degradation pipe body, the angle adjusting motor is installed at the middle part of the outer part of one group of side bottom plates, and the output end of the angle adjusting motor penetrates through the side bottom plate and is fixed with the middle part of the side of the L-shaped side frame.

Preferably, adjust the backup pad subassembly and include the base, the arc draw-in groove, clamping screw, the socket, articulated leg, supporting baseplate and connecting rod, the base is installed to the output of electric lift supporting leg, the connecting rod is installed through the bearing in the middle part of base one side, and install articulated leg at the other end of connecting rod, the supporting baseplate is installed to the bottom of articulated leg, the arc draw-in groove has been seted up to the side bottom of base, and clamping screw has been inserted to the inboard of arc draw-in groove, the socket has been seted up on the articulated leg, and intermeshing between socket and the clamping screw.

Preferably, go out liquid electricity generation subassembly and include end liquid outlet, first electricity generation fan leaf, first end groove and go out the liquid valve, and the end liquid outlet has been seted up to the one end of first side mount, and first end groove is installed to the tip of first side mount to install first electricity generation fan leaf through the dead lever in the inboard of first end groove, there is a liquid valve bottom first end groove through the pipeline intercommunication.

Preferably, feed liquor power generation subassembly holds the groove including imbibition pump, second electricity generation fan leaf and second, and second end groove is installed to the one end of second side mount, and the inboard in second end groove installs second electricity generation fan leaf through the dead lever, and the top side in second end groove installs the imbibition pump, and imbibition pump input and second end groove intercommunication, has seted up the inlet between second side mount and the second end groove.

Preferably, the L-shaped frame assembly comprises a side fixing plate and a horizontal hollow plate, the side fixing plate is installed at the top middle part of the first side fixing frame, the horizontal hollow plate is installed at the top of the side fixing plate, and a horizontal adjusting driving assembly is arranged at the bottom of the horizontal hollow plate along the axial direction of the horizontal hollow plate.

Preferably, horizontal adjustment drive assembly includes horizontal migration motor and horizontal adjusting screw, and the one end mid-mounting of cavity board has the horizontal migration motor in the level, and the output of horizontal migration motor runs through the cavity board in the level and installs horizontal adjusting screw, and the through hole has been seted up at the top of sliding block, and horizontal adjusting screw runs through hole and sliding block meshing.

Preferably, clearance kelly subassembly is including articulated seat, clockwork spring and arc grip block, and articulated seat is installed in clearance strip bottom and equidistant installation, and the inboard of articulated seat articulates there is the arc grip block, and is connected through the clockwork spring between arc grip block and the articulated seat, and the sponge cover has been laid to the inboard of arc grip block.

Preferably, wash the board subassembly and add the valve including adjusting spray plate, sprinkler bead and washing liquid, the side tip of L type connecting plate is installed and is adjusted the spray plate, adjusts the equidistant sprinkler bead of having seted up in bottom of spray plate, adjusts the top side portion intercommunication of spray plate and has the washing liquid to add the valve.

The invention has the beneficial technical effects that:

the invention provides a photocatalytic degradation device based on convenient taking and placing of water environment pollutants, which is characterized in that the device is carried to the place close to a factory with sufficient sunlight, then an electric lifting support leg is started to adjust a support bottom plate to be contacted with the ground, a fixing screw penetrates through an arc-shaped clamping groove meshing socket for fixing, a sewage pipe of the factory is communicated through a liquid suction pump, the liquid suction pump is started to enable the liquid suction pump to enable sewage to pass through a second end groove and a second side fixing frame and drive a second power generation fan blade to generate power, the sewage entering the second side fixing frame enters a photocatalytic degradation pipe body, the sewage is filtered and subjected to photocatalytic degradation through the photocatalytic degradation pipe body and a filter screen, then the sewage is discharged into a first side fixing frame and flows into a first end groove through the first side fixing frame to push the first power generation fan blade to rotate to generate power, a rolling motor is started to drive a rotating rod to rotate, the driving gear is driven to rotate through the rotating rod, the transmission gear is driven to move through the driving gear, the photocatalytic degradation tube body is driven to rotate through the transmission gear to carry out photocatalytic degradation, the angle adjusting motor is started to drive the L-shaped side frame to rotate, the arc-shaped light gathering plate is driven through the L-shaped side frame to carry out position adjustment, sunlight can be matched to reflect light in different directions to carry out photocatalytic degradation on the photocatalytic degradation tube body, after the photocatalytic degradation tube body is used for a long time, a cleaning liquid adding valve can be opened due to falling ash of the photocatalytic degradation tube body, cleaning liquid is sprayed onto the photocatalytic degradation tube body, meanwhile, the horizontal moving motor is started to drive the sliding block to move on the horizontal hollow plate to uniformly spray, and the electric lifting rod is started again to enable the cleaning strip to fall to the arc-shaped clamping plate clamp sleeve to move and clean outside the photocatalytic degradation tube body.

Drawings

Fig. 1 is an overall three-dimensional structure diagram of a photocatalytic degradation device based on convenient taking and placing of water environmental pollutants according to a preferred embodiment of the invention;

fig. 2 is an exploded view of the overall three-dimensional structure of a photocatalytic degradation device for conveniently taking and placing water environmental pollutants according to a preferred embodiment of the invention;

fig. 3 is a schematic perspective view of a photocatalytic degradation tube assembly and a rotating assembly according to a preferred embodiment of the photocatalytic degradation device based on convenient taking and placing of water environmental pollutants of the present invention;

fig. 4 is an enlarged view of the structure at the position c of a preferred embodiment of the photocatalytic degradation device based on convenient taking and placing of water environmental pollutants according to the invention;

fig. 5 is an enlarged view of a structure at a position a of a preferred embodiment of the photocatalytic degradation device based on convenient taking and placing of water environmental pollutants according to the invention;

fig. 6 is a schematic perspective view of a light collecting plate assembly according to a preferred embodiment of the photocatalytic degradation device based on convenient taking and placing of water environmental pollutants according to the present invention;

FIG. 7 is a horizontal movement of a photocatalytic degradation apparatus for conveniently picking and placing water environmental pollutants according to a preferred embodiment of the present invention

A schematic combined three-dimensional structure of the lifting component, the wiping component and the cleaning component;

fig. 8 is an enlarged structural view at the position d of a preferred embodiment of the photocatalytic degradation device based on convenient taking and placing of water environmental pollutants according to the invention;

fig. 9 is a schematic perspective view of a supporting and adjusting plate assembly of a photocatalytic degradation device based on convenient taking and placing of water environmental pollutants according to a preferred embodiment of the present invention;

fig. 10 is an enlarged view of the structure at the position b of a preferred embodiment of the photocatalytic degradation device based on convenient taking and placing of water environmental pollutants according to the invention;

fig. 11 is an exploded perspective view of a sideframe assembly of a photocatalytic degradation apparatus for facilitating the removal and placement of water environmental pollutants according to a preferred embodiment of the present invention;

fig. 12 is a side sectional view of a photocatalytic degradation tube assembly according to a preferred embodiment of the photocatalytic degradation apparatus for conveniently picking and placing pollutants in water environment of the present invention.

In the figure: 1-adjusting spraying plate, 2-side fixing plate, 3-horizontal hollow plate, 4-sliding block, 5-electric lifting rod, 6-horizontal moving motor, 7-cleaning strip, 8-first side fixing frame, 9-first end groove, 10-liquid outlet valve, 11-arc light-gathering plate, 12-photocatalytic degradation tube body, 13-arc clamping plate, 14-L type side frame, 15-electric lifting support leg, 16-angle adjusting motor, 17-rolling motor, 18-second end groove, 19-support bottom plate, 20-second side fixing frame, 21-through hole, 22-first power generation fan blade, 23-transmission gear belt, 24-transmission gear, 25-liquid feeding pipe, 26-connecting cylinder and 27-driving gear, 28-rotating rod, 29-second power generation fan blade, 30-liquid suction pump, 31-cleaning liquid adding valve, 32-horizontal adjusting screw rod, 33-spraying opening, 34-hinged seat, 35-L-shaped connecting plate, 36-hinged leg, 37-connecting rod, 38-inserting opening, 39-base, 40-arc clamping groove, 41-fixing screw rod, 42-end liquid outlet, 43-sealing ring and 44-filtering net.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-12, the photocatalytic degradation apparatus for conveniently picking and placing pollutants in water environment provided by this embodiment includes a first side fixing frame 8 and a second side fixing frame 20, and a photocatalytic degradation tube assembly is installed on the inner side of the first side fixing frame 8 through a sealing ring 43, the other end of the photocatalytic degradation tube assembly is inserted into the inner side of the second side fixing frame 20, and a gear linkage assembly capable of driving the photocatalytic degradation tube assembly to rotate is installed at one end of the photocatalytic degradation tube assembly located on the inner side of the second side fixing frame 20, a gear driving assembly for driving the gear linkage assembly to move is installed on the outer side of the second side fixing frame 20, a rotatably adjustable light-collecting plate assembly is installed at the bottom middle portions of the second side fixing frame 20 and the first side fixing frame 8, electric lifting support legs 15 are installed at two ends of the bottom portions of the second side fixing frame 20 and the first side fixing frame 8, adjusting support plate component is installed to the output of electrically-operated lift supporting leg 15, the one end of first side mount 8 is equipped with out liquid electricity generation component, the one end of second side mount 20 is equipped with feed liquor electricity generation component, 8 top middle parts of first side mount install L type frame subassembly, the interior top of L type frame subassembly is equipped with horizontal adjustment drive assembly, horizontal adjustment drive assembly's outside cover is equipped with sliding block 4, electrically-operated lift pole 5 is installed to sliding block 4's bottom, clearance strip 7 is installed to electrically-operated lift pole 5's output, and be equipped with clearance kelly subassembly at the equidistant clearance kelly subassembly that is equipped with in the top of clearance strip 7, L type connecting plate 35 is installed to the lateral part of clearance strip 7, and install the cleaning plate component through L type connecting plate 35.

The device is carried to the place close to the factory with sufficient sunlight, then the electric lifting support legs 15 are started to adjust the support bottom plate 19 to contact with the ground, the fixing screw 41 penetrates through the arc-shaped clamping groove 40 to be fixed by engaging the spigot 38, the liquid suction pump 30 is communicated with the factory sewage pipe and started to enable the liquid suction pump 30 to enable the sewage to pass through the second end groove 18 and the second side fixing frame 20 and drive the second power generation fan blade 29 to generate power, the sewage entering the second side fixing frame 20 enters the photocatalytic degradation tube body 12 again, the photocatalytic degradation tube body 12 and the filter screen 44 are used for filtering and photocatalytic degradation, then the sewage is discharged into the first side fixing frame 8 and flows into the first end groove 9 through the first side fixing frame 8 to push the first power generation fan blade 22 to rotate to generate power, the rolling motor 17 is started to drive the rotating rod 28 to rotate, and the driving gear 27 is driven to rotate through the rotating rod 28, the transmission gear belt 23 is driven to move through the driving gear 27, and then the transmission gear 24 is driven to move, the transmission gear 24 drives the photocatalytic degradation tube body 12 to rotate for photocatalytic degradation, the angle adjusting motor 16 is started to drive the L-shaped side frame 14 to rotate, the L-shaped side frame 14 drives the arc-shaped light-gathering plate 11 to adjust the direction, can be matched with sunlight to reflect light in different directions to the photocatalytic degradation tube body 12 for photocatalytic degradation, after long-term use, the cleaning liquid adding valve 31 can be opened when the photocatalytic degradation tube body 12 falls ash, so that the cleaning liquid is sprayed on the photocatalytic degradation tube body 12, and meanwhile, the horizontal moving motor 6 is started to drive the sliding block 4 to move on the horizontal hollow plate 3 for uniform spraying, and the electric lifting rod 5 is started again to enable the cleaning strip 7 to fall to the arc-shaped clamping plate 13 to be clamped and sleeved outside the photocatalytic degradation tube body 12 for moving and cleaning.

In this embodiment, photocatalytic degradation body subassembly includes photocatalytic degradation body 12, filter screen 44, connecting cylinder 26 and liquid feeding pipe 25, photocatalytic degradation body 12 is installed to the inboard of sealing ring 43, photocatalytic degradation body 12's other end intercommunication has connecting cylinder 26, connecting cylinder 26 keeps away from photocatalytic degradation body 12's one end intercommunication has liquid feeding pipe 25, and liquid feeding pipe 25 and the inside intercommunication of second side mount 20, filter screen 44 is installed to the inside equidistant of photocatalytic degradation body 12, and the inside of filter screen 44 and the inner wall of photocatalytic degradation body 12 have all been laid photocatalytic degradation agent.

In this embodiment, the gear linkage assembly includes a transmission gear 24 and a transmission gear belt 23, the transmission gear 24 is mounted on the outer side of the connecting cylinder 26, the transmission gear belt 23 is sleeved on the outer side of the transmission gear 24, and the inner side of the transmission gear belt 23 and the connecting cylinder 26 are engaged with each other.

In this embodiment, the gear driving assembly includes a rotating rod 28, a driving gear 27 and a rolling motor 17, the rolling motor 17 is installed at the outer end of the second side fixing frame 20, the rotating rod 28 penetrating through the second side fixing frame 20 is installed at the output end of the rolling motor 17, the driving gear 27 is installed at the end of the rotating rod 28 penetrating through the second side fixing frame 20, and the driving gear 27 is located at the inner side of the conveying gear belt 23 and is engaged with the conveying gear belt 23.

In this embodiment, the light collecting plate assembly includes an angle adjusting motor 16, an L-shaped side frame 14, an arc light collecting plate 11 and a side bottom plate, the side bottom plate is installed at the bottom middle parts of the second side fixing frame 20 and the first side fixing frame 8, the L-shaped side frame 14 is hinged to the inner side of the side bottom plate, the arc light collecting plate 11 is installed at the inner end part of the L-shaped side frame 14, the arc light collecting plate 11 is located below the photocatalytic degradation pipe body 12, the angle adjusting motor 16 is installed at the middle part outside a group of side bottom plates, and the output end of the angle adjusting motor 16 penetrates through the side bottom plate and is fixed with the side middle part of the L-shaped side frame 14.

In this embodiment, adjust the backup pad subassembly and include base 39, arc draw-in groove 40, fixing screw 41, socket 38, articulated leg 36, supporting baseplate 19 and connecting rod 37, base 39 is installed to the output of electric lift supporting leg 15, connecting rod 37 is installed through the bearing in the middle part of base 39 one side, and install articulated leg 36 at the other end of connecting rod 37, supporting baseplate 19 is installed to the bottom of articulated leg 36, arc draw-in groove 40 has been seted up to base 39's side bottom, and fixing screw 41 has been inserted to the inboard of arc draw-in groove 40, socket 38 has been seted up on the articulated leg 36, and intermeshing between socket 38 and the fixing screw 41.

In this embodiment, the liquid outlet power generation assembly includes an end liquid outlet 42, a first electric fan blade 22, a first end groove 9 and a liquid outlet valve 10, the end liquid outlet 42 is opened at one end of the first side fixing frame 8, the first end groove 9 is installed at the end of the first side fixing frame 8, the first electric fan blade 22 is installed at the inner side of the first end groove 9 through a fixing rod, and the bottom of the first end groove 9 is communicated with the liquid outlet valve 10 through a pipeline.

In this embodiment, the liquid inlet power generation assembly includes a liquid suction pump 30, a second power generation fan blade 29 and a second end groove 18, the second end groove 18 is installed at one end of the second side fixing frame 20, the second power generation fan blade 29 is installed on the inner side of the second end groove 18 through a fixing rod, the liquid suction pump 30 is installed on the top side of the second end groove 18, the input end of the liquid suction pump 30 is communicated with the second end groove 18, and a liquid inlet is formed between the second side fixing frame 20 and the second end groove 18.

In this embodiment, the L-shaped frame assembly comprises a side fixing plate 2 and a horizontal hollow plate 3, the side fixing plate 2 is installed at the top middle part of the first side fixing frame 8, the horizontal hollow plate 3 is installed at the top part of the side fixing plate 2, and a horizontal adjustment driving assembly is arranged at the bottom of the horizontal hollow plate 3 along the axial direction of the horizontal hollow plate 3.

In this embodiment, horizontal adjustment drive assembly includes horizontal migration motor 6 and horizontal adjusting screw 32, and the one end mid-mounting of the hollow plate 3 in the level has horizontal migration motor 6, and horizontal migration motor 6's output runs through the hollow plate 3 in the level and installs horizontal adjusting screw 32, and through hole 21 has been seted up at the top of sliding block 4, and horizontal adjusting screw 32 runs through hole 21 and the meshing of sliding block 4.

In this embodiment, clearance kelly subassembly is including articulated seat 34, clockwork spring and arc grip block 13, and articulated seat 34 is installed in clearance strip 7 bottom and equidistant installation, and articulated the inboard of articulated seat 34 has arc grip block 13, and is connected through the clockwork spring between arc grip block 13 and the articulated seat 34, and the sponge cover has been laid to the inboard of arc grip block 13.

In this embodiment, the cleaning plate assembly includes regulation shower plate 1, sprinkler 33 and washing liquid and adds valve 31, and the side tip of L type connecting plate 35 is installed and is adjusted shower plate 1, and the bottom of adjusting shower plate 1 is equidistant has seted up sprinkler 33, and the top side portion intercommunication of adjusting shower plate 1 has washing liquid to add valve 31.

The above description is only for the purpose of illustrating the present invention and is not intended to limit the scope of the present invention, and any person skilled in the art can substitute or change the technical solution of the present invention and its conception within the scope of the present invention.

Claims (10)

1. Photocatalytic degradation device based on convenient getting of water environment pollutant, its characterized in that: comprises a first side fixing frame (8) and a second side fixing frame (20), wherein a photocatalytic degradation tube body assembly is arranged on the inner side of the first side fixing frame (8) through a sealing ring (43), the other end of the photocatalytic degradation tube body assembly is inserted into the inner side of the second side fixing frame (20), a gear linkage assembly capable of driving the photocatalytic degradation tube body assembly to rotate is arranged at one end of the photocatalytic degradation tube body assembly positioned on the inner side of the second side fixing frame (20), a gear driving assembly capable of driving the gear linkage assembly to move is arranged on the outer side of the second side fixing frame (20), a condensing plate assembly capable of being rotatably adjusted is arranged at the middle parts of the bottoms of the second side fixing frame (20) and the first side fixing frame (8), electric lifting supporting legs (15) are arranged at two ends of the bottoms of the second side fixing frame (20) and the first side fixing frame (8), and an adjusting supporting plate assembly is arranged at the output ends of the electric lifting supporting legs (15), the one end of first side mount (8) is equipped with out liquid electricity generation subassembly, the one end of second side mount (20) is equipped with feed liquor electricity generation subassembly, first side mount (8) top middle part department installs L type frame subassembly, the interior top of L type frame subassembly is equipped with horizontal adjustment drive assembly, horizontal adjustment drive assembly's outside cover is equipped with sliding block (4), electric lift pole (5) are installed to the bottom of sliding block (4), clearance strip (7) are installed to the output of electric lift pole (5), and be equipped with clearance kelly subassembly at the equidistant clearance in the top of clearance strip (7), L type connecting plate (35) are installed to the lateral part of clearance strip (7), and install the cleaning plate subassembly through L type connecting plate (35).

2. The photocatalytic degradation device based on convenient taking and placing of water environment pollutants as claimed in claim 1, is characterized in that: photocatalytic degradation body subassembly includes photocatalytic degradation body (12), filter screen (44), connecting cylinder (26) and liquid feeding pipe (25), photocatalytic degradation body (12) are installed to the inboard of sealing ring (43), the other end intercommunication of photocatalytic degradation body (12) has connecting cylinder (26), the one end intercommunication that photocatalytic degradation body (12) were kept away from in connecting cylinder (26) has liquid feeding pipe (25), and the inside intercommunication of liquid feeding pipe (25) and second side mount (20), filter screen (44) are installed to the inside equidistant of photocatalytic degradation body (12), and the inside of filter screen (44) and the inner wall of photocatalytic degradation body (12) have all been laid photocatalytic degradation agent.

3. The photocatalytic degradation device based on convenient taking and placing of water environment pollutants as claimed in claim 2, is characterized in that: the gear linkage assembly comprises a transmission gear (24) and a transmission gear belt (23), the transmission gear (24) is installed on the outer side of the connecting cylinder (26), the transmission gear belt (23) is sleeved on the outer side of the transmission gear (24), and the inner side of the transmission gear belt (23) is meshed with the connecting cylinder (26).

4. The photocatalytic degradation device based on convenient taking and placing of water environment pollutants as claimed in claim 3, is characterized in that: the gear driving assembly comprises a rotating rod (28), a driving gear (27) and a rolling motor (17), the rolling motor (17) is installed at the end of the outer side of the second side fixing frame (20), the rotating rod (28) penetrating through the second side fixing frame (20) is installed at the output end of the rolling motor (17), the driving gear (27) is installed at the end of the rotating rod (28) penetrating through the second side fixing frame (20), and the driving gear (27) is located on the inner side of the conveying gear belt (23) and is meshed with the conveying gear belt (23).

5. The photocatalytic degradation device based on convenient taking and placing of water environment pollutants as claimed in claim 4, is characterized in that: the light condensing plate assembly comprises an angle adjusting motor (16), L-shaped side frames (14), arc-shaped light condensing plates (11) and side bottom plates, side bottom plates are installed at the bottoms of second side fixing frames (20) and first side fixing frames (8) in the middle, the L-shaped side frames (14) are hinged to the inner sides of the side bottom plates, the arc-shaped light condensing plates (11) are installed at the inner ends of the L-shaped side frames (14), the arc-shaped light condensing plates (11) are located below the photocatalytic degradation pipe bodies (12), the angle adjusting motor (16) is installed in the middle of the outer portion of one group of side bottom plates, and the output ends of the angle adjusting motors (16) penetrate through the side bottom plates and are fixed with the side middle of the L-shaped side frames (14).

6. The photocatalytic degradation device based on convenient taking and placing of water environment pollutants as claimed in claim 5, is characterized in that: adjust supporting plate subassembly and include base (39), arc draw-in groove (40), clamping screw (41), socket (38), articulated leg (36), supporting baseplate (19) and connecting rod (37), base (39) are installed to the output of electric lift supporting leg (15), connecting rod (37) are installed through the bearing in the middle part of base (39) one side, and install articulated leg (36) at the other end of connecting rod (37), supporting baseplate (19) are installed to the bottom of articulated leg (36), arc draw-in groove (40) have been seted up to the side bottom of base (39), and clamping screw (41) have been inserted to the inboard of arc draw-in groove (40), socket (38) have been seted up on articulated leg (36), and intermeshing between socket (38) and clamping screw (41).

7. The photocatalytic degradation device based on convenient taking and placing of water environment pollutants as claimed in claim 6, is characterized in that: go out liquid electricity generation subassembly and include end play liquid mouth (42), first electricity generation fan leaf (22), first end groove (9) and go out liquid valve (10), end play liquid mouth (42) have been seted up to the one end of first side mount (8), first end groove (9) are installed to the tip of first side mount (8) to install first electricity generation fan leaf (22) through the dead lever in the inboard of first end groove (9), there is liquid valve (10) bottom in first end groove (9) through the pipeline intercommunication.

8. The photocatalytic degradation device based on convenient taking and placing of water environment pollutants as claimed in claim 7, is characterized in that: the liquid inlet power generation assembly comprises a liquid suction pump (30), a second power generation fan blade (29) and a second end groove (18), the second end groove (18) is installed at one end of a second side fixing frame (20), the second power generation fan blade (29) is installed on the inner side of the second end groove (18) through a fixing rod, the liquid suction pump (30) is installed on the top side of the second end groove (18), the input end of the liquid suction pump (30) is communicated with the second end groove (18), and a liquid inlet is formed between the second side fixing frame (20) and the second end groove (18).

9. The photocatalytic degradation device based on convenient taking and placing of water environment pollutants as claimed in claim 8, is characterized in that: the L-shaped frame assembly comprises a side fixing plate (2) and a horizontal hollow plate (3), the side fixing plate (2) is installed in the middle of the top of the first side fixing frame (8), the horizontal hollow plate (3) is installed at the top of the side fixing plate (2), and a horizontal adjusting driving assembly is axially arranged on the bottom of the horizontal hollow plate (3) along the horizontal hollow plate (3).

10. The photocatalytic degradation device based on convenient taking and placing of water environment pollutants as claimed in claim 9, is characterized in that: horizontal adjustment drive assembly includes horizontal migration motor (6) and horizontal adjusting screw (32), and the one end mid-mounting of cavity board (3) has horizontal migration motor (6) in the level, and the output of horizontal migration motor (6) runs through cavity board (3) in the level and installs horizontal adjusting screw (32), and through hole (21) have been seted up at the top of sliding block (4), and horizontal adjusting screw (32) run through hole (21) and sliding block (4) meshing.

Images