CN109811736B - Automatic protection net rope of retrieving of environmental water treatment waterside tongue - Google Patents

Abstract

The invention discloses an automatic enteromorpha recycling protection net rope for environmental water treatment, which comprises two fixing rods which are correspondingly arranged, wherein a supporting slide rod is respectively arranged on each fixing rod, a sliding collector is arranged on one supporting slide rod, a sliding support device is arranged on the other supporting slide rod, a rotating driving rotating wheel is arranged in each sliding collector, a supporting rotating wheel is arranged in each sliding support device, a rotating collecting pull rope is arranged on each driving rotating wheel and each supporting rotating wheel, a swinging enteromorpha pull rod is arranged on each collecting pull rope, two first supporting sliding holes corresponding to the collecting pull ropes are respectively arranged in each sliding collector and each sliding support device, an enteromorpha cleaner is arranged in each sliding collector, and the enteromorpha pull rod can be further driven to rotate by the rotation of the collecting pull rope, the enteromorpha can be further cleaned by utilizing the enteromorpha pull rod, so that the pollution to the environment caused by the fact that the enteromorpha floats to the bank side is avoided.

Description

Automatic protection net rope of retrieving of environmental water treatment waterside tongue

The application is a divisional application with the application number of 2017103951182, application date of 2017, 05 and 30 months and the invention name of 'an automatic recycling protection net rope for enteromorpha in environmental water treatment'.

Technical Field

The invention relates to enteromorpha cleaning equipment, in particular to an automatic recycling protection net rope for environmental water treatment enteromorpha, and particularly relates to an automatic recycling protection net rope for environmental water treatment enteromorpha, which can isolate enteromorpha and automatically convey and clean enteromorpha.

Background

The method is characterized in that the environmental consciousness protection of people is further promoted to be continuously enhanced along with the continuous improvement of living standard, the sea is more and more popular with people in the present life, people gather the seaside leisure entertainment in the life of summer, but an aquatic plant enteromorpha can grow in seawater, particularly the growth season of the enteromorpha in the summer, so the seaside of summer is full of the enteromorpha, the rest entertainment of people is influenced, and the seawater environment is seriously polluted, wherein the enteromorpha is mostly collected by machines after floating to the shore in the process of cleaning the enteromorpha, until the enteromorpha completely disappears, the aim of collecting and treating the enteromorpha is fulfilled, and although the enteromorpha mechanical device can be used for effectively cleaning the enteromorpha, the following problems exist:

the enteromorpha is collected after floating to the bank, so that the seawater on the bank is polluted, the play of people is further influenced, large-scale mechanical equipment is needed for cleaning after the enteromorpha floats to the bank, a large amount of workload is further caused for operators, and the cleaning efficiency of the enteromorpha is further reduced.

Therefore, it is necessary to design an automatic recycling protection net rope for enteromorpha in environmental water treatment to solve the technical problems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, provides an automatic recycling protection net rope for enteromorpha in environmental water treatment, can arrange two corresponding fixed rods in seawater, the fixed rods are respectively provided with a supporting slide rod, the two supporting slide rods are respectively provided with a sliding collector and a sliding supporter, a driving rotary wheel and a supporting rotary wheel are respectively arranged in the sliding collector and the sliding supporter, so that the rotation of the driving rotary wheel can be used for further driving the rotation of the collecting pull rope, the rotation of the enteromorpha pull rod can be further driven, the enteromorpha can be further pulled through the enteromorpha pull rod, the pollution of the environment caused by the fact that the enteromorpha floats to the bank side is avoided, and an enteromorpha cleaner can be arranged in the sliding collector, thereby can collect the stay cord and be in gliding in-process of waterside tongue clearance ware can pass through can clear up the waterside tongue on the waterside tongue pull rod behind the first drainage hole drainage, thereby further carry collect in the drainage hole, thereby can pass through the drain pipe can be with the further bank limit of carrying of waterside tongue to avoided the waterside tongue to float the pollution that the bank limit led to the fact the environment, also further avoided the waste on the manual work that the manual work cleared up waterside tongue led to the fact simultaneously, further improvement cleaning efficiency.

The invention is realized by the following technical scheme:

the utility model provides an automatic protection net rope of retrieving of environmental water treatment waterside tongue, is including the dead lever of two corresponding settings, be provided with one on the dead lever respectively and support the slide bar, be provided with a gliding slip collector on supporting the slide bar, another supports and is provided with a gliding slip supporter on the slide bar, be provided with a pivoted drive runner in the slip collector, be provided with one in the slip supporter and support the runner, the drive runner with be provided with a pivoted on the support runner and collect the stay cord, be provided with the wobbling waterside tongue pull rod on the collection stay cord. Can set up two corresponding dead levers in the sea water be provided with a support slide bar on the dead lever respectively, be provided with a gliding slip collector on a support slide bar, be provided with a gliding slip supporter on another support slide bar, and the slip collector with be provided with the pivoted between the slip supporter and collect the stay cord, thereby can pass through the rotation of collecting the stay cord can further drive the rotation of waterside pull rod, thereby can pass through the waterside of the tongue pull rod can further pulling the waterside in the sea water, thereby avoided the waterside to float the pollution that the bank caused to the environment.

Two first supporting sliding holes corresponding to the collecting pull ropes are respectively arranged in the sliding collector and the sliding supporter, an enteromorpha cleaning device is arranged in the sliding collector, a discharge groove corresponding to the collecting pull rope is arranged in the enteromorpha cleaning device, a water inlet pipe and a collecting and draining hole are also arranged in the enteromorpha prolifera cleaner, a circle of first draining holes correspondingly communicated with the draining groove are arranged in the enteromorpha prolifera cleaner, the first draining holes are respectively correspondingly communicated with the water inlet pipe, the first drainage holes are respectively corresponding to the enteromorpha pull rods, a circle of first drainage holes correspondingly communicated with the drainage grooves are also arranged in the enteromorpha cleaner, the first drainage holes are respectively communicated with the corresponding collection drainage holes, and the enteromorpha pull rod corresponds to the first drainage holes. Can collect the messenger that stay cord pivoted in-process can be further the waterside tongue pull rod slides to in the waterside tongue clearance ware, thereby can utilize can clear up the waterside tongue on the waterside tongue pull rod behind the first drainage hole drainage, thereby can further make the waterside tongue circulate under the impact of rivers and arrive collect in the drainage hole, thereby reach and clear up the purpose of collecting to the waterside tongue, thereby avoided the increase of the work load that artifical clearance waterside tongue caused, improvement work efficiency that can be further.

The sliding collector is also internally provided with a swinging driving wheel which rotates in the first supporting sliding hole, the swinging driving wheel drives the collecting pull rope to rotate, the sliding collector is also internally provided with a sliding jacking rod, the jacking rod is provided with a first floating plate, and the jacking rod drives the swinging driving wheel to rotate. Can pass through the rotation of swing drive wheel can be further drive collect the rotation of stay cord to can be further drive the rotation of waterside tongue pull rod, thereby can be collecting the pivoted in-process of stay cord can further improvement the effect of waterside tongue is collected to the waterside tongue pull rod.

The sliding collector is also provided with a water supply pipe and a drainage pipe which are correspondingly communicated with the water inlet pipe and the collecting drainage hole, and the water supply pipe and the drainage pipe are provided with a row of second floating plates which are correspondingly arranged. Can be right through the delivery pipe the inlet tube supplies water to can utilize the drain pipe is further carried the waterside with the waterside, thereby prevent that the waterside from floating the pollution that the shore caused the environment to the waterside.

And the sliding collector and the sliding support are respectively provided with a fourth floating plate. The sliding collector and the sliding support can further float in seawater through the sliding collector and the fourth floating plate arranged on the sliding support, so that enteromorpha can be further cleaned.

Furthermore, a first rotating cavity is respectively arranged in the sliding collector and the sliding support, the driving rotating wheel and the supporting rotating wheel respectively rotate in the first rotating cavity, the two first supporting sliding holes are respectively communicated with the first rotating cavity, a fourth rotating shaft rotating in the first rotating cavity is arranged in the sliding collector, the driving rotating wheel is arranged on the fourth rotating shaft, a motor is also arranged in the sliding collector and drives the fourth rotating shaft to rotate, the second floating plates are respectively provided with a second supporting slide block, the water supply pipe and the drainage pipe are respectively arranged on the second supporting slide blocks, and an electric power cable for supplying power to the motor is further arranged on the second supporting sliding block, a rotating third rotating shaft is arranged in the sliding supporter, and the supporting rotating wheel is arranged on the third rotating shaft. The motor can be powered by the power cable, so that the rotation of the driving rotating wheel can be further driven by the rotation of the motor, the rotation of the collecting pull rope can be further driven, the water supply pipe and the drainage pipe can be further fixed by the second supporting slide block, the water supply pipe, the drainage pipe and the power cable can be further floated in sea water by the second floating plate, and the enteromorpha can be further cleaned and conveyed.

Further, be provided with one in the waterside tongue clearance ware with the slip through-hole of the corresponding intercommunication of escape way, collect the stay cord and be in slide in the slip through-hole, just still be provided with in the waterside tongue clearance ware one with the corresponding joint groove of escape way, first drainage hole is the slope form setting, and with first drainage hole is corresponding, the escape way is trapezoidal setting. Can pass through the drainage in first drainage hole, can be further carry out high pressure to the waterside tongue pull rod and wash to can be further clear up the waterside tongue on the waterside tongue pull rod, and can be provided with the joint groove in the waterside tongue clearance ware, thereby can utilize the normal circulation of messenger's waterside tongue that can be further of the in-process of first drainage hole drainage arrives in the first drainage hole.

Furthermore, a first groove and a second groove which are correspondingly communicated with the two first supporting sliding holes are respectively arranged in the sliding collector, the first groove and the second groove are correspondingly arranged, a first rotating shaft is arranged in the first groove, a second rotating shaft is arranged in the second groove, the swinging driving wheels are respectively arranged on the second rotating shaft, and the first rotating shaft is respectively provided with a swinging supporting wheel corresponding to the swinging driving wheels. Can pass through the rotation of swing drive wheel can be further drive collect the rotation of stay cord to the rotation of drive waterside tongue pull rod that can be further, thereby can pass through the assurance that the rotation of waterside tongue pull rod can be further collects the effect of waterside tongue to the waterside tongue pull rod.

The sliding collector is internally provided with a jacking sliding hole, the jacking rod slides in the jacking sliding hole, the sliding collector is internally provided with two third grooves correspondingly communicated with the jacking sliding hole, the second rotating shaft is respectively provided with a first gear rotating in the third grooves, the jacking rod is provided with a clamping rack correspondingly engaged and connected with the two first gears, the end part of the jacking rod is provided with a supporting plate, and the first floating plate is arranged on the supporting plate. The top pressure rod can be further driven to slide through the action of the first floating plate on the sea surface, so that the swing driving wheel can be further driven to rotate through the sliding of the top pressure rod, and the collection pull rope can be driven to rotate.

Further, collect the stay cord including one row of corresponding link block, link block's both ends are provided with two first connecting blocks and a second connecting block that alternately correspond the setting respectively, first connecting block with the second connecting block is connected through the corresponding rotation of a cross pivot that is the cross form setting respectively, can pass through the cross pivot, can further make link block can the drive runner with rotate on the support runner, thereby can further drive the rotation of waterside tongue pull rod.

The rotary sliding blocks are arranged side by side, two rotary cavities which are arranged in a T shape are respectively arranged on two sides of each rotary sliding block, two rotary sliding blocks are arranged on one of the rotary sliding blocks corresponding to the rotary sliding blocks, a rotary head which is arranged in a T shape is respectively arranged on each rotary sliding block, the rotary heads rotate in the rotary cavities respectively, a first spring is respectively arranged on each of two sides of each rotary sliding block, the first springs are correspondingly connected to the rotary sliding blocks respectively, four concave third grooves are arranged on each rotary sliding block, a fifth rotary shaft is respectively arranged in each third groove, the enteromorpha pull rods respectively rotate on the fifth rotary shafts, the enteromorpha pull rods respectively swing in the third grooves, and swing cavities which are correspondingly communicated with the third grooves are respectively arranged on each rotary sliding block, the swing cavity is cylindrically arranged, a sixth rotating shaft is arranged in the swing cavity respectively, a rotating block is arranged on the sixth rotating shaft respectively, and a second spring for tensioning the enteromorpha pull rod is arranged on the rotating block respectively. Can the connection slider pivoted in-process can be drive simultaneously the rotation of rotation slider can pass through the rotation that rotates the slider can further drive the rotation of waterside tongue pull rod to can pass through the assurance that the rotation of waterside tongue pull rod can be further is to the collection effect of waterside tongue, and can pass through rotate the slider and be in rotate on the connection slider, thereby can further improvement is to the collection effect of waterside tongue, and can pass through the messenger that the elastic pressure of second spring can be further rotate the slider resets.

The rotating slide block and the connecting slide block are correspondingly connected and then rotate on the driving rotating wheel and the supporting rotating wheel, and the swinging driving wheel drives the connecting slide block to rotate. The rotary sliding block and the connecting sliding block can rotate on the driving rotating wheel and the supporting rotating wheel, so that the enteromorpha pull rod can be further driven to rotate, and the enteromorpha can be cleaned.

The two ends of the rotating sliding block are respectively connected with a rubber protecting sleeve, and the two ends of the rotating sliding block are respectively and correspondingly connected to the connecting sliding block. The second spring and the cross rotating shaft can be further protected through the rubber protecting sleeve, so that infiltration of enteromorpha is prevented, and normal rotation of the rotating sliding block can be further guaranteed.

Furthermore, a supporting rotating groove is formed in the driving rotating wheel, the supporting rotating groove is triangular, a fourth groove formed in the driving rotating wheel is formed in each of two sides of the supporting rotating groove, a seventh rotating shaft is arranged in each fourth groove, a rotating supporting roller is arranged on each seventh rotating shaft, and the collecting pull rope rotates on the supporting rollers. The supporting rotating groove can be formed in the driving rotating wheel, and the two sides of the supporting rotating groove are respectively provided with a rotating supporting roller, so that the normal rotation of the collecting pull rope can be ensured through the supporting rollers.

Furthermore, a third supporting slide hole is respectively formed in the sliding collector and the sliding support, and the supporting slide rod slides in the third supporting slide hole respectively. The sliding collector and the sliding support can be respectively provided with a third supporting sliding hole, so that the sliding collector and the sliding support can further ensure that the sliding collector and the sliding support can normally slide on the supporting sliding rod along with the lifting of the seawater.

Furthermore, the sliding collector and the sliding support are correspondingly connected through two support pull ropes, two support pull ropes are respectively provided with a row of first support slide blocks which are correspondingly arranged, the first support slide blocks are respectively provided with a third support slide block, the third support slide blocks are respectively provided with a second support slide hole, the collection pull ropes are respectively arranged in the second support slide holes to slide, and the first support slide blocks are respectively provided with a third floating plate. The two supporting pull ropes are respectively provided with a first supporting slide block, and the first supporting slide blocks are respectively provided with a second supporting slide hole, so that the normal sliding of the collecting pull ropes can be further ensured through the second supporting slide holes, and the enteromorpha collecting effect is ensured.

Furthermore, the first floating plate and the second floating plate, and the third floating plate and the fourth floating plate are formed by polystyrene foam plates, and the first floating plate, the second floating plate and the third floating plate are respectively wrapped by a plastic shell in a sealing manner. The first floating plate, the second floating plate and the third floating plate can be respectively wrapped in a sealing mode through a plastic shell, so that the first floating plate, the second floating plate and the third floating plate can be wrapped in a sealing mode through the plastic shell, and the first floating plate, the second floating plate and the third floating plate can be further prevented from being corroded by seawater.

Compared with the prior art, the invention has the beneficial effects that: the sea water collection device comprises sea water collection pull ropes, sea water collection pull rods, a sea water collection pull rod, a sea water entermorpha cleaning device and a sea water entermorpha cleaning device, wherein two corresponding fixing rods can be arranged in sea water, a supporting slide rod is respectively arranged on the fixing rods, a sliding collector and a sliding supporter are respectively arranged on the two supporting slide rods, the sliding collector and the sliding supporter are respectively internally provided with a driving rotating wheel and a supporting rotating wheel, so that the rotation of the driving rotating wheel can be utilized to further drive the rotation of the collection pull rod, the sea water entermorpha pull rod is arranged on the collection pull rod, the sea entermorpha pull rod can be further driven to rotate, the sea entermorpha pull in sea water can be further pulled through the rotation of the sea entera pull rod, the further collection and cleaning of the entera sea entera morpha can be performed, can pass through can clear up the waterside tongue on the waterside tongue pull rod behind the first drainage hole drainage, thereby further carry collect in the drainage hole to reach the purpose of clearing up the waterside tongue, thereby can pass through the drain pipe can be with the further bank limit of carrying of waterside tongue, thereby avoided the waterside tongue to float the pollution that the bank limit led to the fact the environment, thereby further assurance is to people's normal recreation, simultaneously also further avoid the artifical waste on the physical power that clears up the waterside tongue and cause, further reduction work load, thereby further improvement cleaning efficiency.

Drawings

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

FIG. 1 is a schematic view of the overall structure of an automatic recycling protection net rope for enteromorpha in environmental water treatment in an embodiment of the invention.

FIG. 2 is a schematic view of the overall structure of the sliding collector according to the embodiment of the present invention.

Fig. 3 is a schematic view of a connection structure of the pressing rod and the first gear according to an embodiment of the present invention.

Fig. 4 is a side view of the integral structure of the top pressure rod and the swing driving wheel in the embodiment of the invention.

FIG. 5 is a schematic view of an overall structure of a connecting slider according to an embodiment of the present invention.

Fig. 6 is a side view of the overall structure of the driving wheel according to the embodiment of the present invention.

FIG. 7 is a side view of the overall structure of a supporting rotary trough in accordance with an embodiment of the present invention.

FIG. 8 is a side view of the overall structure of the enteromorpha cleaner in the embodiment of the invention.

FIG. 9 is a schematic view of the overall structure of the drain tank according to the embodiment of the present invention.

Fig. 10 is a schematic view of an overall structure of a third supporting slider according to the embodiment of the present invention.

Fig. 11 is a schematic view of an overall structure of a second supporting slider according to the embodiment of the present invention.

In the figure: 1 fixed rod, 2 supporting slide rods, 3 sliding collector, 4 sliding support, 5 supporting pull ropes, 6 first supporting slide blocks, 7 collecting pull ropes, 8 driving rotating wheels, 9 supporting rotating wheels, 10 second supporting slide blocks, 11 first supporting slide holes, 12 first rotating cavities, 13 enteromorpha cleaning device, 14 collecting discharge holes, 15 discharge grooves, 16 first discharge holes, 17 first grooves, 18 second grooves, 19 first rotating shafts, 20 second rotating shafts, 21 swinging supporting wheels, 22 swinging driving wheels, 23 third rotating shafts, 24 sliding through holes, 25 enteromorpha pull rods, 26 jacking rods, 27 supporting plates, 28 first floating plates, 29 water inlet pipes, 30 first discharge holes, 31 clamping grooves, 32 water supply pipes, 33 discharge pipes, 34 electric cables, 35 second floating plates, 36 fourth rotating shafts, 37 motors, 38 supporting rotary grooves, 39 jacking slide holes, 40 clamping racks, 41 first gears, 42 first connecting blocks, 43 second connecting block, 44 cross rotating shaft, 45 connecting sliding block, 46 rotating sliding block, 47 rotating head, 48 rotating cavity, 49 first spring, 50 third groove, 51 fifth rotating shaft, 52 rotating block, 53 swinging cavity, 54 sixth rotating shaft, 55 second spring, 56 third supporting sliding block, 57 second supporting sliding hole, 58 third floating plate, 59 fourth groove, 60 seventh rotating shaft, 61 supporting roller, 62 rubber protecting sleeve, 63 fourth floating plate, 64 third groove and 65 third supporting sliding hole.

Detailed Description

As shown in fig. 1 to 11, an automatic recycling protection net rope for enteromorpha in environmental water treatment comprises two fixing rods 1 which are correspondingly arranged, wherein a supporting slide bar 2 is respectively arranged on each fixing rod 1, a sliding collector 3 is arranged on one supporting slide bar 2, and a sliding support 4 is arranged on the other supporting slide bar 2; a rotary driving rotating wheel 8 is arranged in the sliding collector, and a supporting rotating wheel 9 is arranged in the sliding supporter; the driving rotating wheel 8 and the supporting rotating wheel 9 are provided with a rotating collecting pull rope 7, and the collecting pull rope 7 is provided with a swinging enteromorpha pull rod 25. The two fixing rods 1 can be inserted into the seabed, the number of the fixing rods 1 can be set according to the requirement, every two fixing rods 1 are correspondingly arranged, a supporting slide rod 2 is respectively connected onto each fixing rod 1, a slide collector 3 and a slide supporter 4 are respectively arranged on each supporting slide rod 2, a rotary driving rotary wheel 8 and a rotary supporting rotary wheel 9 are respectively arranged in each slide collector 3 and each slide supporter 4, a collecting pull rope 7 is arranged on each driving rotary wheel 8 and each supporting rotary wheel 9, so that the collecting pull rope 7 can rotate on each driving rotary wheel 8 and each supporting rotary wheel 9, each driving rotary wheel 8 can further drive the collecting pull rope 7 to rotate, an enteromorpha pull rod 25 is arranged on each collecting pull rod 7, and the number of the enteromorpha pull rods 25 can be set according to the design requirement, and the enteromorpha pull rod 25 can swing on the collection stay cord 7, so that the collection stay cord 7 can be further driven in the rotating process, the enteromorpha pull rod 25 slides, so that the enteromorpha in the seawater can be further pulled through the sliding of the enteromorpha pull rod 25, the purpose of collecting the enteromorpha can be achieved, the pollution caused by the fact that the enteromorpha floats to the shore can be prevented, the normal play of people at the sea can be further ensured, and the enteromorpha can be further pulled through the sliding of the enteromorpha pull rod 25, so that the enteromorpha can be further processed.

The sliding collector 3 with be provided with respectively in the sliding support 4 two with collect the corresponding first support slide opening 11 of stay cord 7, be provided with an waterside tongue clearance ware 13 in the sliding collector 3, be provided with one in the waterside tongue clearance ware 13 with collect the corresponding escape canal 15 of stay cord 7, still be provided with an inlet tube 29 in the waterside tongue clearance ware 13 and collect escape opening 14, be provided with the round in the waterside tongue clearance ware 13 with the first hole 30 of the corresponding intercommunication of escape canal 15, first hole 30 respectively with the corresponding intercommunication of inlet tube 29, just first hole 30 respectively with the corresponding pull rod 25 of waterside tongue, still be provided with the round in the waterside tongue clearance ware 13 with the first hole 16 of the corresponding intercommunication of escape canal 15, first hole 16 respectively with collect the corresponding intercommunication of escape canal 14, and the enteromorpha pull rod 25 corresponds to the first drainage hole 16. The sliding collector 3 and the sliding support 4 are respectively provided with two first supporting sliding holes 11 which are correspondingly arranged, the collecting pull rope 7 can slide in the first supporting sliding holes 11, the sliding collector 3 is internally provided with an enteromorpha clearance device 13, the enteromorpha clearance device 13 is internally provided with a drainage groove 15, the drainage groove 15 is corresponding to the first supporting sliding holes 11, the collecting pull rope 7 can slide in the drainage groove 15, the enteromorpha clearance device 13 is internally provided with a water inlet pipe 29 and a collecting drainage hole 14, the enteromorpha clearance device 13 is internally provided with a circle of first drainage holes 30 which are correspondingly communicated with the drainage groove 15, so that water can be drained through the first drainage holes 30 after the water is fed through the water inlet pipe 29, and the first drainage holes 30 are respectively corresponding to the enteromorpha pull rod 25, thereby can pass through can be further after the drainage of first drainage hole 30 spray water and wash enteromorpha pull rod 25, thereby can with the enteromorpha on the enteromorpha pull rod 25 washes, still be provided with the round in the enteromorpha clearance ware 13 with the first drain hole 16 of the corresponding intercommunication of escape way 15, and first drain hole 16 with collect the corresponding intercommunication of drain hole 14, thereby can pass through after the drainage of first drain hole 30 wash the enteromorpha on the enteromorpha pull rod 25, can further make the enteromorpha circulate in first drain hole 16, thereby can further circulate in collecting drain hole 14, thereby can carry out further processing to the enteromorpha, thereby can reach the purpose of collecting the enteromorpha.

A swing driving wheel 22 which rotates in the first supporting sliding hole 11 is further arranged in the sliding collector 3, the swing driving wheel 22 drives the collecting pull rope 7 to rotate, a sliding top pressure rod 26 is further arranged in the sliding collector 3, a first floating plate 28 is arranged on the top pressure rod 26, and the top pressure rod 26 drives the swing driving wheel 22 to rotate. The sliding collector 3 is also internally provided with two swing driving wheels 22 which rotate in the first supporting sliding holes 11, the first supporting sliding holes 11 are provided with two swing driving rotating wheels 22, so that the collection pull rope 7 can be further driven to rotate through the rotation of the swing driving wheels 22, the enteromorpha pull rod 25 can be further driven to rotate through the rotation of the collection pull rope 7, the collection effect of the enteromorpha pull rod 25 on enteromorpha can be further ensured, the sliding collector 3 is internally provided with a sliding top pressure rod 26, the top pressure rod 26 is provided with a first floating plate 28, the first floating plate 28 can be utilized to float on the sea surface, the first floating plate 28 can be further driven to act through the fluctuation of sea waves, and the top pressure rod 26 can be driven to slide, the rotation of the swing drive wheel 22 can be driven by the sliding of the knock rod 26, and the rotation of the collection cord 7 can be further driven by the rotation of the swing drive wheel 22.

The sliding collector 3 is further provided with a water supply pipe 32 and a drainage pipe 33 which are correspondingly communicated with the water inlet pipe 29 and the collecting drainage hole 14, and the water supply pipe 32 and the drainage pipe 33 are provided with a row of second floating plates 35 which are correspondingly arranged. A water supply pipe 32 and a drainage pipe 33 are further disposed on the sliding collector 3, a water pump can be disposed on the shore, the water inlet pipe 29 can be supplied with water through the water supply pipe 32, and the enteromorpha in the collection drainage hole 14 can be further conveyed to the shore through the drainage pipe 33, so that the enteromorpha can be further collected and processed, a row of corresponding second floating plates 35 is disposed on the water supply pipe 32 and the drainage pipe 33, so that the water supply pipe 32 and the drainage pipe 33 can be further floated on the sea surface through the second floating plates 35, and normal water supply and drainage of the water supply pipe 32 and the drainage pipe 33 can be further ensured.

The sliding collector 3 and the sliding support 4 are respectively provided with a fourth floating plate 63, the sliding collector 3 and the sliding support 4 can be respectively provided with a fourth floating plate 63, so that the sliding collector 3 and the sliding support 4 can be further floated on the sea, the sliding collector 3 and the sliding support 4 can be further enabled to slide on the support slide bar 2, and the sea enteromorpha can be further cleaned, so that the pollution to the environment after the enteromorpha floats to the shore can be further prevented.

As shown in fig. 2, 6 and 11, a first rotating cavity 12 is respectively disposed in the sliding collector 3 and the sliding supporter 4, the driving wheel 8 and the supporting wheel 9 rotate in the first rotating cavity 12, two first supporting sliding holes 11 are respectively disposed in correspondence with the first rotating cavity 12, a fourth rotating shaft 36 rotating in the first rotating cavity 12 is disposed in the sliding collector 3, the driving wheel 8 is disposed on the fourth rotating shaft 36, a motor 37 is further disposed in the sliding collector 3, the motor 37 drives the fourth rotating shaft 36 to rotate, a second supporting slider 10 is disposed on each of the second floating plates 35, the water supply pipe 32 and the drainage pipe 33 are disposed on the second supporting slider 10, and an electric cable 34 for supplying power to the motor 37 is further disposed on the second supporting slider 10, a third rotating shaft 23 is arranged in the sliding support 4, and the supporting rotating wheel 9 is arranged on the third rotating shaft 23. A first rotating cavity 12 is respectively arranged in the sliding collector 3 and the sliding support 4, the first rotating cavity 12 is a cavity, the driving rotating wheel 8 and the supporting rotating wheel 9 respectively rotate in the first rotating cavity 12, and two first supporting sliding holes 11 are respectively communicated with the first rotating cavity 12 correspondingly, the two first supporting sliding holes 11 are arranged in parallel, the collecting pull rope 7 can slide in the first supporting sliding holes 11, a rotating fourth rotating shaft 36 is arranged in the sliding collector 3, the fourth rotating shaft 36 can rotate in the first rotating cavity 12, the driving rotating wheel 8 is arranged on the fourth rotating shaft 36, a motor 37 is arranged in the sliding collector 3, the motor 37 can drive the fourth rotating shaft 36 to rotate, so that the rotation of the motor 37 can further drive the fourth rotating shaft 36 to rotate, so that the rotation of the driving wheel 8 can be further driven, a second support block 10 is provided on each of the second floating plates 35, the water supply pipe 32 and the drain pipe 33 are provided on each of the second support blocks 10, so that the water supply pipe 32 and the drain pipe 33 can be fixed by the second support blocks 10, and a power cable 34 is provided on each of the second support blocks 10, so that the motor 37 can be supplied with power by the power cable 34, so that the power cable 34 can be fixed by the second support blocks 10, and so that the power cable 34 can be floated on the sea surface by the second floating plate 35, so that the power cable 34 can be further supplied with power by a power system on the shore and the water supply pipe 32 can be supplied by a water pump provided on the shore, can carry the bank through the mixture of faecal moss and water through drain 33 to can carry out further processing to the enteromorpha, thereby prevent that the enteromorpha from floating the pollution that the bank caused the environment and also further reduce workman's work load simultaneously, improvement work efficiency that can be further, also can further guarantee simultaneously people normally play at the sea, and be provided with a pivoted third pivot 23 in the slip support 4, support runner 9 sets up on the third pivot 23, thereby can pass through third pivot 23 can further guarantee support runner 9's normal rotation.

As shown in fig. 8 and 9, be provided with in the enteromorpha clearance ware 13 one with the sliding through hole 24 of the corresponding intercommunication of escape way 15, collect stay cord 7 and be in slide through hole 24 slides, just still be provided with in the enteromorpha clearance ware 13 one with the corresponding joint groove 31 of escape way 15, first drainage hole 30 is the slope form setting, and with first escape hole 16 is corresponding, escape way 15 is trapezoidal setting. Be provided with in the waterside tongue clearance ware 13 one with the corresponding intercommunication of escape way 15 drives slip through-hole 24, slip through-hole 24 can with the corresponding intercommunication of first support slide-hole 11, collect stay cord 7 can slide in the slip through-hole 24, and still be provided with in the waterside tongue clearance ware 13 with the corresponding joint groove 31 of escape way 15, thereby can be in the process of first drainage hole 30 drainage, can utilize joint groove 31 blocks the discharged water in the first drainage hole 30, thereby can guarantee the normal circulation of water to in the first drainage hole 16, thereby can further guarantee to carry out normal transport to the waterside tongue, first drainage hole 30 is the slope form setting, and with first drainage hole 16 is corresponding, thereby can be in can further drive the waterside tongue behind the first drainage hole 30 drainage circulate to in the first drainage hole 16, therefore, after the enteromorpha pull rod 25 slides to the drainage groove 15, the enteromorpha can be flushed into the first drainage hole 16 under the impact of water flow, and further flows into the collection drainage hole 14.

As shown in fig. 2 to 4, a first groove 17 and a second groove 18 are respectively disposed in the sliding collector 3 and correspondingly communicated with the two first supporting sliding holes 11, the first groove 17 and the second groove 18 are correspondingly disposed, a first rotating shaft 19 and a second rotating shaft 20 which rotate in the sliding collector 3 are respectively disposed in the first groove 17 and the second groove 18, the swing driving wheels 22 are respectively disposed on the second rotating shaft 20, and swing supporting wheels 21 corresponding to the swing driving wheels 22 are respectively disposed on the first rotating shaft 19. A first groove 17 and a second groove 18 corresponding to the two first supporting sliding holes 11 are respectively arranged in the sliding collector 3, the two first supporting sliding holes 11 are respectively arranged, then the two first grooves 17 and the two second grooves 18 are respectively arranged, the first grooves 17 and the two second grooves 18 are correspondingly arranged, a first rotating shaft 19 and a second rotating shaft 20 which rotate are respectively arranged in the first grooves 17 and the second grooves 18, the first rotating shaft 19 and the second rotating shaft 20 respectively rotate in rotating holes arranged in the sliding collector 3, the swing driving wheels 22 are respectively arranged on the second rotating shaft 20, so that the swing driving wheels 22 can be further driven to rotate by the rotation of the second rotating shaft 20, a swing supporting wheel 21 is respectively arranged on the first rotating shaft 19, therefore, the collection pull rope 7 can be further driven to rotate in the rotating process of the swing driving wheel 22, the enteromorpha pull rod 25 can be further driven to rotate through the rotation of the collection pull rope 7, the collection effect on enteromorpha can be further guaranteed, the collection pull rope 7 can be supported through the rotation of the swing supporting wheel 21, and the normal rotation of the collection pull rope 7 can be further guaranteed.

A jacking sliding hole 39 is further formed in the sliding collector 3, the jacking rod 26 slides in the jacking sliding hole 39, two third grooves 64 correspondingly communicated with the jacking sliding hole 39 are formed in the sliding collector 3, first gears 41 rotating in the third grooves 64 are respectively arranged on the second rotating shafts 20, clamping racks 40 correspondingly meshed and connected with the two first gears 41 are arranged on the jacking rod 26, a supporting plate 27 is arranged at the end portion of the jacking rod 26, and the first floating plate 28 is arranged on the supporting plate 27. A jacking sliding hole 39 is further arranged in the sliding collector 3, the jacking rod 26 can slide in the jacking sliding hole 39, two third grooves 64 corresponding to the jacking sliding holes 39 are further arranged in the sliding collector 3, a first gear 41 is respectively arranged on the two second rotating shafts 20, the first gear 41 can rotate in the third grooves 64, a clamping rack 40 is further arranged on the jacking rod 26, so that the clamping rack 40 can be further driven to slide in the sliding process of the jacking rod 26, the first gear 41 can be further driven to rotate through the sliding of the clamping rack 40, the swing driving wheel 22 can be further driven to rotate, the collecting pull rope 7 can be driven to rotate, a supporting plate 27 is arranged at the top of the jacking rod 26, the first floating plate 28 is disposed on the supporting plate 27, so that the first floating plate 28 can be supported by the supporting plate 27, the first floating plate 28 can float on the sea surface, the supporting plate 27 can be further driven to move under the action of the sea waves, the top pressure rod 26 can be further driven to slide, and the first gear 41 can be driven to rotate.

As shown in fig. 5, the collecting rope 7 includes a row of corresponding connecting sliding blocks 45, two ends of each connecting sliding block 45 are respectively provided with a first connecting block 42 and a second connecting block 43 which are correspondingly arranged in a crossed manner, and the first connecting block 42 and the second connecting block 43 are respectively and correspondingly and rotatably connected through a cross rotating shaft 44 which is arranged in a cross shape. Collect stay cord 7 including one row of link block 45 that corresponds the connection, the quantity that link block 45 set up can set up as required of design, side by side link block 45 constitutes after correspondingly connecting collect stay cord 7 the both ends of link block 45 are provided with two criss-cross first connecting block 42 and the second connecting block 43 that corresponds the setting respectively to can correspond the first connecting block 42 that sets up through two criss-cross and second connecting block 43 corresponds the rotation through a cross pivot 44 and connects, thereby can further make side by side link block 45 connects side by side, and can make the link block 45 that sets up side by side further drive runner 8 with rotate on the support runner 9.

A rotating slide block 46 which is uniformly arranged is arranged on the connecting slide block 45 side by side, two rotating cavities 48 which are T-shaped are respectively arranged on two sides of the rotating slide block 46, one connecting slide block 45 corresponding to the rotating slide block 46 is provided with two pieces, a rotating head 47 which is T-shaped is respectively arranged on the connecting slide block 45, the rotating head 47 rotates in the rotating cavities 48 respectively, two sides of the rotating slide block 46 are respectively provided with a first spring 49, the first springs 49 are respectively and correspondingly connected on the connecting slide block 45, four third grooves 50 which are concave are arranged on the rotating slide block 46, a fifth rotating shaft 51 is respectively arranged in the third grooves 50, the enteromorpha pull rod 25 rotates on the fifth rotating shaft 51 respectively, and the enteromorpha pull rod 25 swings in the third grooves 50 respectively, the rotary sliding block 46 is provided with a swing cavity 53 correspondingly communicated with the third groove 50, the swing cavity 53 is cylindrical, a sixth rotating shaft 54 is arranged in the swing cavity 53, a rotary rotating block 52 is arranged on the sixth rotating shaft 54, and a second spring 55 for tensioning the enteromorpha pull rod 25 is arranged on the rotating block 52. A row of rotating sliders 46 which are uniformly arranged are further arranged on the connecting sliders 45 side by side, the number of the rotating sliders 46 can be correspondingly arranged according to the number of the enteromorpha pull rods 25, the rotating sliders 46 are uniformly distributed between the connecting sliders 45 side by side, the corresponding connecting sliders 45 are arranged at the positions where the rotating sliders 46 are arranged, the rotating sliders 48 which are arranged in a T shape are respectively arranged at two sides of the rotating sliders 46, the two connecting sliders 45 are respectively provided with a rotating head 47, the rotating heads 47 are respectively arranged in a T shape, the two rotating heads 47 respectively rotate in the rotating cavities 48, so that the rotating sliders 46 can be further driven to rotate through the rotation of the connecting sliders 45, and two first springs 49 are respectively arranged at two sides of the rotating sliders 46, the first springs 49 are respectively and correspondingly connected to the connecting sliding blocks 45, so that the rotating sliding blocks 46 can be further reset in the rotating process by the elastic pressure of the first springs 49, four third grooves 50 which are arranged in a concave shape are arranged on the rotating sliding blocks 46, a fifth rotating shaft 51 is respectively arranged in each third groove 50, four enteromorpha pull rods 25 are respectively arranged and rotate on the fifth rotating shafts 51, the enteromorpha pull rods 25 can respectively swing in the third grooves 50, swing cavities 53 which correspond to the third grooves 50 are respectively arranged in the rotating sliding blocks 46, the swing cavities 53 are respectively arranged in a cylindrical shape, a sixth rotating shaft 54 is respectively arranged in the swing cavities 53, and a rotating block 52 is respectively arranged on each sixth rotating shaft 54, the rotating blocks 52 are respectively provided with a second spring 55, the second springs 55 are respectively and correspondingly connected to the enteromorpha pull rod 25, so that the rotating slider 46 can be further driven to rotate in the rotating process of the connecting slider 45, after the rotating slider 46 rotates into the sliding through hole 24 and slides into the drainage groove 15, the enteromorpha pull rod 25 can be further swung in the third groove 50 through the rotation of the enteromorpha pull rod 25, so that the normal sliding of the connecting slider 45 can be further ensured, and through the rotation of the rotating slider 46, after the rotating slider rotates onto the driving runner 8 and the supporting runner 9, the enteromorpha pull rod 25 can be further contracted in the third groove 50, so that the normal rotation of the rotating slider 46 can be further ensured, and the enteromorpha pull rod 25 can be further reset by the tensioning force of the second spring 55, so that the normal enteromorpha collecting function of the enteromorpha pull rod 25 can be ensured.

The rotating slide block 46 is correspondingly connected with the connecting slide block 45 and then rotates on the driving rotating wheel 8 and the supporting rotating wheel 9, and the swing driving wheel 22 drives the connecting slide block 45 to rotate. The rotation of the rotating slider 46 and the connecting slider 45 can be further driven by the rotation of the driving wheel 8, thereby driving the enteromorpha pull rod 25 to slide, further collecting the enteromorpha, the connecting slider 45 can be driven to rotate by the rotation of the swing driving wheel 22, the connecting slider 45 can be further rotated by the rotation of the cross rotating shaft 44, thereby further driving the rotation of the rotating slider 46, driving the rotation of the enteromorpha pull rod 25, further collecting the enteromorpha through the rotation of the enteromorpha pull rod 25, therefore, the collection effect is improved, the rotating slide block 46 can be further reset through the tensioning force of the first spring 49, and the collection effect on the enteromorpha can be further ensured.

The two ends of the rotating slide block 46 are respectively connected with a rubber protecting sleeve 62, and the rubber protecting sleeves 62 at the two ends are respectively and correspondingly connected to the connecting slide block 45. The two ends of the rotary sliding block can be respectively provided with a rubber protecting sleeve 62, so that the first spring 49 can be sealed by the rubber protecting sleeves 62, the normal rotation function of the rotary sliding block 46 can be further ensured, and the normal reset of the rotary sliding block 46 can be further ensured.

As shown in fig. 6 and 7, a supporting rotating groove 38 is provided on the driving rotating wheel 8, the supporting rotating groove 38 is arranged in a triangular shape, and both sides of the supporting rotating groove 38 respectively include a fourth groove 59 provided on the driving rotating wheel 8, a seventh rotating shaft 60 is respectively provided in the fourth groove 59, a rotating supporting roller 61 is respectively provided on the seventh rotating shaft 60, and the collecting pulling rope 7 rotates on the supporting roller 61. The driving rotating wheel 8 is provided with a supporting rotating groove 38, the supporting rotating groove 38 is arranged in a circular ring shape, the supporting rotating groove 38 is arranged in a triangular shape, two sides of the supporting rotating groove 38 respectively comprise a fourth groove 59 arranged on the driving rotating wheel 8, the fourth grooves 59 are respectively provided with a circle and are correspondingly arranged, a seventh rotating shaft 60 is respectively arranged in the fourth grooves 59, a rotating supporting roller 61 is respectively arranged on the seventh rotating shaft 60, the collecting pull rope 7 can rotate on the supporting roller 61, the collecting pull rope 7 can be supported by the supporting roller 61, so that the normal rotation of the collecting pull rope 7 can be further ensured,

as shown in fig. 1, the sliding collector 3 and the sliding support 4 are respectively provided with a third supporting sliding hole 65, and the supporting sliding rods 2 respectively slide in the third supporting sliding holes 65. A third supporting slide hole 65 can be respectively provided on the slide collector 3 and the slide supporter 4, so that the slide collector 3 and the slide supporter 4 can be further slid on the supporting slide bar 2 by using the third supporting slide hole 65, so that the slide collector 3 and the slide supporter 4 can be further floated in the water, and the slide collector 3 and the slide supporter 4 can be lifted and lowered in the sea water as the sea level is lifted and lowered.

As shown in fig. 1 and 10, the sliding collector 3 and the sliding support 4 are correspondingly connected through two support pulling ropes 5, a row of first support sliding blocks 6 correspondingly arranged are respectively arranged on the two support pulling ropes 5, a third support sliding block 56 is respectively arranged on the first support sliding block 6, a second support sliding hole 57 is respectively arranged on the third support sliding block 56, the collection pulling ropes 7 respectively slide in the second support sliding holes 57, and a third floating plate 58 is respectively arranged on the first support sliding block 6. Two support pulling ropes 5 are arranged between the sliding collector 3 and the sliding support 4, the two support pulling ropes 5 are arranged in parallel, a row of first support sliding blocks 6 correspondingly arranged are respectively arranged on the two support pulling ropes 5, a third support sliding block 56 is respectively arranged on the first support sliding block 6, a second support sliding hole 57 is respectively arranged on the third support sliding block 56, so that the collection pulling ropes 7 can be supported by the second support sliding holes 57, the normal rotation of the collection pulling ropes 7 can be further ensured, a third floating plate 58 is respectively arranged on the first support sliding block 6, so that the first support sliding block 6 can be supported by the third floating plate 58, and the first support sliding block 6 can be further floated in seawater, so that a normal rotation of the collection cord 7 can be ensured.

The first floating plate 28, the second floating plate 35, the third floating plate 58, and the fourth floating plate 63 are formed by polystyrene foam plates, and the first floating plate 28, the second floating plate 35, the third floating plate 58, and the fourth floating plate 63 are respectively wrapped by a plastic shell in a sealing manner. The first floating plate 28 and the second floating plate 35, and the third floating plate 58 and the fourth floating plate 63, which are formed of the styrofoam, may be used to further reduce manufacturing costs, and the first floating plate 28 and the second floating plate 35, and the third floating plate 58 and the fourth floating plate 63 may be hermetically wrapped by a plastic shell, respectively, so that the first floating plate 28 and the second floating plate 35, and the third floating plate 58 and the fourth floating plate 63 may be further prevented from being corroded by seawater.

The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.

Claims (5)

1. The utility model provides an automatic protection net rope of retrieving of environmental water treatment waterside tongue which characterized in that: the enteromorpha prolifera collecting device comprises two fixing rods which are correspondingly arranged, wherein a supporting slide rod is respectively arranged on the fixing rods, a sliding collector is arranged on one supporting slide rod, a sliding support is arranged on the other supporting slide rod, a rotating driving rotating wheel is arranged in the sliding collector, a supporting rotating wheel is arranged in the sliding support, a rotating collecting pull rope is arranged on the driving rotating wheel and the supporting rotating wheel, and a swinging enteromorpha prolifera pull rod is arranged on the collecting pull rope;

two first supporting sliding holes corresponding to the collecting pull ropes are respectively arranged in the sliding collector and the sliding supporter, an enteromorpha cleaning device is arranged in the sliding collector, a discharge groove corresponding to the collecting pull rope is arranged in the enteromorpha cleaning device, a water inlet pipe and a collecting and draining hole are also arranged in the enteromorpha prolifera cleaner, a circle of first draining holes correspondingly communicated with the draining groove are arranged in the enteromorpha prolifera cleaner, the first draining holes are respectively correspondingly communicated with the water inlet pipe, the first drainage holes are respectively corresponding to the enteromorpha pull rods, a circle of first drainage holes correspondingly communicated with the drainage grooves are also arranged in the enteromorpha cleaner, the first drainage holes are correspondingly communicated with the collection drainage holes respectively, and the enteromorpha pull rod corresponds to the first drainage holes;

a swing driving wheel which rotates in the first supporting sliding hole is further arranged in the sliding collector, the swing driving wheel drives the collecting pull rope to rotate, a sliding top pressure rod is further arranged in the sliding collector, a first floating plate is arranged on the top pressure rod, and the top pressure rod drives the swing driving wheel to rotate;

the sliding collector is also provided with a water supply pipe and a drainage pipe which are correspondingly communicated with the water inlet pipe and the collecting drainage hole, and the water supply pipe and the drainage pipe are provided with a row of second floating plates which are correspondingly arranged;

a fourth floating plate is respectively arranged on the sliding collector and the sliding support;

the sliding collector and the sliding support are respectively provided with a first rotating cavity, the driving rotating wheel and the supporting rotating wheel respectively rotate in the first rotating cavity, the two first supporting sliding holes are respectively communicated with the first rotating cavity, a fourth rotating shaft rotating in the first rotating cavity is arranged in the sliding collector, the driving rotating wheel is arranged on the fourth rotating shaft, a motor is also arranged in the sliding collector and drives the fourth rotating shaft to rotate, the second floating plates are respectively provided with a second supporting slide block, the water supply pipe and the drainage pipe are respectively arranged on the second supporting slide blocks, the second support sliding block is also provided with an electric power cable for supplying power to the motor, a rotating third rotating shaft is arranged in the sliding support, and the support rotating wheel is arranged on the third rotating shaft;

a sliding through hole correspondingly communicated with the drainage groove is formed in the enteromorpha cleaning device, the collection pull rope slides in the sliding through hole, a clamping groove corresponding to the drainage groove is further formed in the enteromorpha cleaning device, the first drainage hole is obliquely arranged and corresponds to the first drainage hole, and the drainage groove is in a trapezoidal arrangement;

and the sliding collector and the sliding support are respectively provided with a third supporting sliding hole, and the supporting sliding rods respectively slide in the third supporting sliding holes.

2. The automatic recycling protection net rope for enteromorpha prolifera in environmental water treatment according to claim 1, is characterized in that: a first groove and a second groove which are correspondingly communicated with the two first supporting sliding holes are respectively arranged in the sliding collector, the first groove and the second groove are correspondingly arranged, a rotating first rotating shaft is arranged in the first groove, a rotating second rotating shaft is arranged in the second groove, the swinging driving wheels are respectively arranged on the second rotating shafts, and the first rotating shafts are respectively provided with a swinging supporting wheel corresponding to the swinging driving wheels;

the sliding collector is internally provided with a jacking sliding hole, the jacking rod slides in the jacking sliding hole, the sliding collector is internally provided with two third grooves correspondingly communicated with the jacking sliding hole, the second rotating shaft is respectively provided with a first gear rotating in the third grooves, the jacking rod is provided with a clamping rack correspondingly engaged and connected with the two first gears, the end part of the jacking rod is provided with a supporting plate, and the first floating plate is arranged on the supporting plate.

3. The automatic recycling protection net rope for enteromorpha prolifera in environmental water treatment according to claim 1, is characterized in that: the collecting pull rope comprises a row of corresponding connecting slide blocks, two ends of each connecting slide block are respectively provided with a first connecting block and a second connecting block which are arranged in a crossed and corresponding mode, and the first connecting block and the second connecting block are respectively and correspondingly and rotatably connected through a cross rotating shaft arranged in a cross shape;

the rotary sliding blocks are arranged side by side, two rotary cavities which are arranged in a T shape are respectively arranged on two sides of each rotary sliding block, two rotary sliding blocks are arranged on one of the rotary sliding blocks corresponding to the rotary sliding blocks, a rotary head which is arranged in a T shape is respectively arranged on each rotary sliding block, the rotary heads rotate in the rotary cavities respectively, a first spring is respectively arranged on each of two sides of each rotary sliding block, the first springs are correspondingly connected to the rotary sliding blocks respectively, four concave third grooves are arranged on each rotary sliding block, a fifth rotary shaft is respectively arranged in each third groove, the enteromorpha pull rods respectively rotate on the fifth rotary shafts, the enteromorpha pull rods respectively swing in the third grooves, and swing cavities which are correspondingly communicated with the third grooves are respectively arranged on each rotary sliding block, the swinging cavities are arranged in a cylindrical shape, a sixth rotating shaft is arranged in each swinging cavity, a rotating block is arranged on each sixth rotating shaft, and a second spring for tensioning the enteromorpha pull rod is arranged on each rotating block;

the rotating slide block is correspondingly connected with the connecting slide block and then rotates on the driving rotating wheel and the supporting rotating wheel, and the swinging driving wheel drives the connecting slide block to rotate;

the two ends of the rotating sliding block are respectively connected with a rubber protecting sleeve, and the two ends of the rotating sliding block are respectively and correspondingly connected to the connecting sliding block.

4. The automatic recycling protection net rope for enteromorpha prolifera in environmental water treatment according to claim 1, is characterized in that: the supporting rotating groove is arranged on the driving rotating wheel in a triangular mode, the four grooves in the driving rotating wheel are respectively formed in the two sides of the supporting rotating groove, a seventh rotating shaft is arranged in each fourth groove, a rotating supporting roller is arranged on each seventh rotating shaft, and the collecting pull rope rotates on the supporting rollers.

5. The automatic recycling protection net rope for enteromorpha prolifera in environmental water treatment according to claim 1, is characterized in that: the sliding collector is correspondingly connected with the sliding support through two support pull ropes, a row of first support sliding blocks which are correspondingly arranged are respectively arranged on the two support pull ropes, a third support sliding block is respectively arranged on the first support sliding blocks, a second support sliding hole is respectively arranged on the third support sliding blocks, the collection pull ropes respectively slide in the second support sliding holes, and a third floating plate is respectively arranged on the first support sliding blocks; the first floating plate, the second floating plate, the third floating plate and the fourth floating plate are formed by polystyrene foam plates, and the first floating plate, the second floating plate and the third floating plate are respectively wrapped in a plastic shell in a sealing mode.

Images