JP2020197107A - Lifting device of energy-saving type river channel contaminant - Google Patents

Abstract

To provide a lifting device of an energy-saving type river channel contaminant.SOLUTION: A lifting device of an energy-saving type river channel contaminant includes a main body, the lifting device is installed on the left side of the main body, the lifting device includes fixing plates installed on the lower end of the left end face of the main body in a longitudinally symmetrical form, a roller is rotatably installed between the fixing plates, dust can be lifted by rotating the roller in a backward flow direction, and the lifting device converts flow energy of a river flow into auxiliary kinetic energy, provides partial energy to the lifting work, can reduce consumption of electric energy, can also charge energy using solar energy, simultaneously can generate power with the solar energy depending on weather, can be also stored during no-usage, can extend a service life, can favorably reduce power generation by a power plant, and is friendly to the environment.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of environmental protection technology, and specifically is an energy-saving river channel pollutant salvage device.

Traditional river pollutant salvage equipment needs to provide electricity from the outside. Most of the electricity is provided by the power plant, and the equipment works by the engine. However, if the lifting device is used for a long time, the amount of electricity consumed is enormous, and the resource consumption and environmental pollution to generate such electricity are also terrible. Although the garbage in the river channel could be disposed of, it causes air pollution and is not environmentally friendly. The apparatus disclosed by the present invention can solve the above problems.

Publication of Chinese Patent Application No. 1042664645

It is an object of the present invention to provide an energy-saving river channel pollutant lifting device and to eliminate the above-mentioned drawbacks in the existing technology.

The energy-saving river channel pollutant withdrawal device of the present invention includes a main body, a withdrawal device is installed on the left side of the main body, and the withdrawal device has a fixing plate installed symmetrically at the lower end of the left end surface of the main body. Including, a roller is rotatably installed between the fixing plates, the roller can rotate in the backflow direction to pull up dust, a hydraulic device is installed on the right side of the main body, and the hydraulic device is the said. A rolling chamber is included in the right end surface of the main body, a rocker arm is rotatably installed in the rolling chamber, and a water ring rotates symmetrically at the upper end of the rocker arm. Possible to be installed, when the dust is pulled up, the upper end of the rocker arm is turned over and the water ring is brought into contact with the water surface, whereby the hydraulic power can be converted into auxiliary kinetic energy, and the upper left side of the hydraulic device can be used. A solar energy device is installed in the vehicle, the solar energy device can be expanded and contracted and can be used according to the weather conditions, a control device is installed under the solar energy device, and a moving rod is contained in the control device. Installed, the moving rod can choose whether to activate the hydraulic device first and then the solar energy device, an energy supply device is installed behind the control device, and the energy supply device is withdrawn. It can provide energy to the device and receive the assistive kinetic energy provided by the hydraulic device.

The lifting device includes rotating discs fixedly installed at both front and rear ends of the outer circular surface of the roller, and filter plates are arranged in an annular shape on the outer circular surface of the roller and are fixedly installed to perform the filtration. The plate is located between the turntables and is fixedly connected to the filter plate, and is installed in the roller so that a punch hole penetrates back and forth, and the circumferential inner wall of the punch hole and the roller. The communication ports are arranged in a ring shape and are installed so as to communicate with each other, and each of the communication ports is located between the adjacent filter plates, and the front and rear ends are provided in the holes. A fixed pillar that penetrates the fixed plate and is fixedly connected to the fixed plate is installed, and an outflow passage is installed in the fixed pillar so as to penetrate back and forth, and the upper wall of the outflow passage is installed. An upper opening is installed in the middle portion so as to communicate with each other, and when the communication port and the drop opening face each other, the dust pulled up by the filter plate may fall into the outflow passage and be discharged. it can.

The hydraulic device includes a rotating column that is symmetrically and fixedly installed at the lower end of the front-rear end surface of the rocker arm, and the rotating column is rotatably connected to an inner wall on the same side of the turning chamber. A pulley chamber is installed in the rocker arm, a drive pulley that is coaxial with the rotating column is rotatably installed on the lower side of the pulley chamber, and a driven pulley rotates on the upper side of the drive pulley. It is possible to install, a transmission belt is wound between the drive pulley and the driven pulley, and the water ring is symmetrically and fixedly connected to the axial center of the driven pulley, and the rear side said. A shaft through hole is installed in the rotary column so as to penetrate the front and rear, a rotary shaft is fixedly installed at the axial center of the drive pulley, and the rear end of the rotary shaft penetrates the shaft through hole. And it is connected to the energy providing device.

The solar energy device includes a lid plate chamber installed on the upper end surface of the main body, and the lid plate is installed symmetrically and rotatably in the lid plate chamber, and the opposite end of the lid plate is installed. Is rotatably connected to the front and rear walls of the rotating shaft, and the opposite ends of the lid plate are in contact with each other, and an elevating chamber is installed under the lid plate chamber so as to communicate with the elevating chamber. An elevating plate is slidably installed inside, and urging rods are symmetrically and hinged to the left and right ends of the upper end surface of the elevating plate, and the upper end of the urging rod is below the lid plate. A solar panel is fixedly installed in the upper end surface of the elevating plate, which is connected to the end surface by a hinge.

As a suitable technical plan, a driven slide chamber is installed in the lower end surface of the elevating plate, and a driven slide block is installed symmetrically and slidably in the driven slide chamber, and the driven slide block is installed. A telescopic rod is connected to the lower end of the drive slide chamber with a hinge, a drive slide chamber is installed symmetrically and communicates with the lower end of the elevating chamber, and telescopic screw bolts penetrate left and right in the drive slide chamber. Moreover, it is rotatably installed, and a drive slide block connected to the telescopic screw bolt by a thread is slidably installed in the drive slide chamber, and after the lower ends of the telescopic rods intersect, the upper end of the drive slide block The telescopic rods are rotatably connected to each other at the intersections of the telescopic rods.

The control device includes a control chamber installed below the drive slide chamber, the moving rod is slidably installed in the control chamber, and a control motor is located in the left wall of the control chamber. It is fixedly installed, a control screw bolt connected by the moving rod and a female screw is movably connected to the right end of the control motor, and a rack is fixedly installed in the upper end surface of the moving rod. A traction chamber is installed on the lower wall of the control chamber, a traction plate is slidably installed in the traction chamber, a traction block chamber opened upward is installed in the traction plate, and the moving rod is installed. A traction block extending into the traction block chamber is fixedly installed at the right end of the lower end surface of the traction block, and an opening is installed between the traction chamber and the inversion chamber so as to communicate with each other. A tow rod is hinged to the right end of the tow rod, the right end of the tow rod penetrates the opening, and is hinged to the left end surface of the rocker arm.

As a suitable technical plan, a transmission chamber is installed on the upper wall of the control chamber so as to communicate with each other, and a rack gear that meshes with the rack is rotatably installed in the transmission chamber on the front side of the rack gear. Driven oblique gears are installed coaxially and fixedly in the room, the right end of the telescopic screw bolt extends into the transmission chamber, and the right end of the telescopic screw bolt is a driven oblique tooth that meshes with the drive oblique gear. Gears are fixedly installed.

The energy providing device includes an energy providing chamber installed behind the control chamber, and the energy providing chamber is installed so as to communicate with the main body and the fixing plate on the rear side. A power motor is fixedly installed in the rear wall, a power spur gear is electrically connected to the front end of the power motor, and a power pulley is coaxially and fixedly connected to the front side of the power spur gear. The rear end of the roller extends into the energy supply chamber, and an annular pulley is fixedly installed at the rear end of the roller, and a power belt is installed between the power pulley and the annular pulley. Is wound around, and a transmission spur gear that meshes with the power spur gear is rotatably installed on the right side of the power spur gear, and a main synchronous pulley is installed synchronously and fixedly on the front side of the transmission spur gear. The rear end of the rotating shaft extends into the energy providing chamber, and a sub-synchronous pulley is fixedly installed at the rear end of the rotating shaft, between the main synchronous pulley and the sub-synchronous pulley. Is wrapped with a synchronous belt.

As a suitable technical plan, an electric storage box is fixedly installed on the upper wall of the energy providing chamber, and the electric storage box is electrically connected to the solar panel, the control motor, and the power motor. The electricity converted by the solar panel is stored in the electric storage box, and the electric storage box provides electricity to the control motor and the power motor.

Advantages of the present invention: The present invention can convert the flowing energy of the river stream into assistive kinetic energy, provide some energy for the salvage work, reduce the consumption of electrical energy, and utilize solar energy to charge energy. At the same time, it can generate power with solar energy depending on the weather conditions, and it can also be stored when not in use, extending the service life, and other than that, the power generation by the power plant can be reduced well, which is environmentally friendly.

In order to explain the present invention in detail with reference to FIGS. 1 to 5 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-rear direction and the up-down, left-right front-back direction of the self-projection relationship in FIG.

FIG. 1 is a schematic diagram of the overall configuration of the energy-saving river channel pollutant lifting device of the present invention. FIG. 2 is a schematic configuration diagram from the direction AA in FIG. FIG. 3 is a schematic configuration diagram from the BB direction in FIG. FIG. 4 is a schematic configuration diagram from the CC direction in FIG. FIG. 5 is a schematic configuration diagram from the DD direction in FIG.

The energy-saving river channel pollutant lifting device of the present invention is mainly applied to the lifting work and the energy-saving work for river channel pollutants, and further description will be given to the present invention with reference to the following figures.

The energy-saving river channel pollutant withdrawal device of the present invention includes the main body 11, and the withdrawal device 101 is installed on the left side of the main body 11, and the withdrawal device 101 is installed symmetrically at the lower end of the left end surface of the main body 11. A roller 13 is rotatably installed between the fixing plates 12 including the fixed plate 12, and the roller 13 rotates in the backflow direction to pull up dust, and is on the right side of the main body 11. The hydraulic device 102 is installed, the hydraulic device 102 includes a turning chamber 14 installed in the right end surface of the main body 11, and a rocker arm 15 is installed in the turning chamber 14 so as to be rollable. A water ring 16 is rotatably installed at the upper end of the rocker arm 15 symmetrically in the front-rear direction, and when the dust is pulled up, the upper end of the rocker arm 15 is turned over and the water ring 16 and the water surface are brought together. By contacting, the hydraulic power can be converted into auxiliary kinetic energy, the solar energy device 103 is installed above the left side of the hydraulic device 102, and the solar energy device 103 can be expanded and contracted and can be used according to the weather condition. A control device 104 is installed under the solar energy device 103, a moving rod 17 is installed in the control device 104, and the moving rod 17 first activates the hydraulic device 102, and then the solar energy. You can choose whether to activate the device 103, an energy supply device 105 is installed behind the control device 104, the energy supply device 105 can supply energy to the lifting device 101, and the hydraulic device 102 provides it. You can receive the energy of the assisting movement.

Preferably, the lifting device 101 includes rotating discs 18 fixedly installed at both front and rear ends of the outer circular surface of the roller 13, and filter plates 19 are arranged in an annular shape on the outer circular surface of the roller 13. The filter plate 19 is fixedly installed, is located between the rotary plates 18, and is fixedly connected to the filter plate 19, so that a punch hole 20 penetrates back and forth in the roller 13. The communication ports 21 are arranged in a ring shape between the circumferential inner wall of the punch hole 20 and the outer circular surface of the roller 13, and are installed so as to communicate with each other, and the communication ports 21 are close to each other. A fixed pillar 22 located between the filtering plates 19 and having front and rear ends penetrating the fixing plate 12 and being fixedly connected to the fixing plate 12 is installed in the punched hole 20 and fixed. The outflow passage 23 is installed in the pillar 22 so as to penetrate the outflow passage 23 in the front-rear direction, and the drop opening 24 opened upward is installed in the middle portion of the upper wall of the outflow passage 23 so as to communicate with the communication port 21. When the outlet 24 and the outlet 24 face each other, the dust pulled up by the filter plate 19 can fall into the outflow passage 23 and be discharged.

Preferably, the hydraulic device 102 includes a rotary column 25 that is symmetrically and fixedly installed at the lower end of the front-rear end surface of the rocker arm 15, and the rotary column 25 is an inner wall on the same side of the rolling chamber 14. A pulley chamber 26 is installed in the rocker arm 15 rotatably, and a drive pulley 27 rotatably installed in the lower side of the pulley chamber 26, which is coaxial with the rotating column 25. A driven pulley 28 is rotatably installed on the upper side of the drive pulley 27, a transmission belt 29 is wound between the drive pulley 27 and the driven pulley 28, and the water ring 16 is the driven pulley. It is symmetrically and fixedly connected to the axial center of 28, and a shaft through hole 30 is installed in the rotary column 25 on the rear side so as to penetrate the axial center of the drive pulley 27 in the front-rear direction. The shaft 31 is fixedly installed, and the rear end of the rotating shaft 31 penetrates the shaft through hole 30 and is connected to the energy providing device 105.

Preferably, the solar energy device 103 includes a lid plate chamber 32 installed on the upper end surface of the main body 11, and the lid plate 33 is installed symmetrically and rotatably in the lid plate chamber 32. The opposite ends of the lid plate 33 are rotatably connected to the front and rear walls of the rotating shaft 31, and the opposing ends of the lid plate 33 are in contact with each other, and move up and down below the lid plate chamber 32. The chambers 34 are installed so as to communicate with each other, the elevating plate 35 is slidably installed in the elevating chamber 34, and the urging rods 36 are symmetrically installed on the left and right ends of the upper end surface of the elevating plate 35. It is connected by a hinge, the upper end of the urging rod 36 is connected to the lower end surface of the lid plate 33 by a hinge, and the solar panel 37 is fixedly installed in the upper end surface of the elevating plate 35.

Preferably, a driven slide chamber 38 is installed in the lower end surface of the elevating plate 35, and a driven slide block 39 is installed symmetrically and slidably in the driven slide chamber 38, and the driven slide is installed. A telescopic rod 40 is connected to the lower end of the block 39 by a hinge, and a drive slide chamber 41 is installed symmetrically and communicatively at the lower end of the elevating chamber 34, and expands and contracts in the drive slide chamber 41. The screw bolts 42 are installed so as to penetrate left and right and rotatably, and a drive slide block 43 connected to the telescopic screw bolts 42 by threads is slidably installed in the drive slide chamber 41. After the lower ends intersect, it is connected to the upper end of the drive slide block 43 with a hinge, and the intersecting portion of the telescopic rod 40 is rotatably connected.

Preferably, the control device 104 includes a control chamber 44 installed below the drive slide chamber 41, and the moving rod 17 is slidably installed in the control chamber 44 in the control chamber 44. A control motor 45 is fixedly installed in the left wall, and a control screw bolt 46 connected to the moving rod 17 by a female screw is movably connected to the right end of the control motor 45, and is above the moving rod 17. A rack 47 is fixedly installed in the end face, a traction chamber 48 is installed in the lower wall of the control chamber 44, and a traction plate 49 is slidably installed in the traction chamber 48. A tow block chamber 50 opened upward is installed in the plate 49, and a tow block 51 extending into the tow block chamber 50 is fixedly installed at the right end of the lower end surface of the moving rod 17. An opening 52 is installed between the traction chamber 48 and the tumbling chamber 14 so as to communicate with each other, a traction rod 53 is hinged to the right end of the traction plate 49, and the right end of the traction rod 53 is the opening. It penetrates 52 and is connected to the left end surface of the rocker arm 15 with a hinge.

Preferably, a transmission chamber 54 is installed on the upper wall of the control chamber 44 so as to communicate with the transmission chamber 54, and a rack gear 55 that meshes with the rack 47 is rotatably installed in the transmission chamber 54. A drive oblique gear 56 is coaxially and fixedly installed on the front side of the 55, the right end of the telescopic screw bolt 42 extends into the transmission chamber 54, and the drive oblique tooth 42 extends to the right end of the telescopic screw bolt 42. A driven oblique tooth gear 57 that meshes with the gear 56 is fixedly installed.

Preferably, the energy providing device 105 includes an energy providing chamber 58 installed on the rear side of the control chamber 44, and the energy providing chamber 58 communicates with the main body 11 and the fixing plate 12 on the rear side. A power motor 59 is fixedly installed in the rear wall of the energy providing chamber 58, and a power spur gear 60 is movably connected to the front end of the power motor 59. A power pulley 61 is coaxially and fixedly installed on the front side of the 60, the rear end of the roller 13 extends into the energy providing chamber 58, and the annular pulley 62 is fixed to the rear end of the roller 13. A power belt 63 is wound between the power pulley 61 and the annular pulley 62, and a transmission spur gear 64 that meshes with the power spur gear 60 rotates on the right side of the power spur gear 60. The main synchronous pulley 65 is synchronously and fixedly installed on the front side of the transmission spur gear 64, and the rear end of the rotating shaft 31 extends into the energy providing chamber 58 and rotates. A sub-synchronous pulley 66 is fixedly installed at the rear end of the shaft 31, and a synchronization belt 67 is wound between the main synchronization pulley 65 and the sub-synchronization pulley 66.

Preferably, an electric storage box 68 is fixedly installed on the upper wall of the energy providing chamber 58, and the electric storage box 68 can energize the solar panel 37, the control motor 45, and the power motor 59. The electricity connected to and converted by the solar panel 37 is stored in the electric storage box 68, and the electric storage box 68 provides electricity to the control motor 45 and the power motor 59.

The procedure for using the present invention will be described in detail with reference to the following figures:

First, the device is bridged over the river channel, the fixing plate 12 is directed upstream, the lower filter plate 19 is immersed in the river, the rocker arm 15 is vertically oriented, and the elevating plate 35 is the elevating chamber 34. The lid plate 33 closes the upper side of the elevating chamber 34, the moving rod 17 is in the left limit position, and the traction block 51 and the left end surface of the traction block chamber 50 are in contact with each other.

When the dust is pulled up, the control motor 45 is activated, the control motor 45 drives the rotation of the control screw bolt 46, the control screw bolt 46 moves the moving rod 17 to the right by thread connection, and the tow block 51 moves to the right. In conjunction with the movement, the traction plate 49 pulls the rocker arm 15 by the traction rod 53, and at this time, the upper end of the rocker arm 15 turns to the right due to gravity and reaches the water surface. At this time, the rocker arm 15 pulls the traction plate 49. By pulling, the traction plate 49 is moved to the right and brought into contact with the right wall of the traction chamber 48. At this time, the lower end of the water ring 16 and the water surface are brought into contact with each other. At this time, the water ring 16 is counterclockwise due to the water flow. The driven pulley 28 is driven and rotated, the drive pulley 27 is rotationally driven by the transmission belt 29, the sub-synchronous pulley 66 is rotationally driven by the rotating shaft 31, and the main synchronous pulley is driven by the synchronous belt 67. 65 is rotationally driven, and the transmission spur gear 64 is rotationally interlocked counterclockwise, and the power spur gear 60 is rotationally interlocked clockwise by the meshing of the gears, whereby the assisting motion energy can be provided. The motor 59 is activated and the power spur gear 60 is interlocked to rotate clockwise as the main power, and the power pulley 61 is driven and rotated, and the annular pulley 62 is driven and rotated by the power belt 63. The rollers 13 are interlocked and rotated clockwise, whereby the filter plate 19 is driven to follow the backflow and pull up the dust.

When generating electricity with solar energy, the control motor 45 continues to operate, interlocking the moving rods 17 and continuing to move to the right. At this time, the traction block 51 and the traction block chamber 50 do not come into contact with each other, and the rack 47 and the rack gears It meshes with 55, and when the rack 47 moves to the right, the rack gear 55 is interlocked and rotated by the meshing of the teeth, and the driving oblique gear 56 is driven and rotated, and the driven oblique gear 57 is driven by the meshing of the gears. Is driven and rotates, and the rotation of the telescopic screw bolt 42 is interlocked, the drive slide block 43 is driven and moves relative to each other by connecting the threads, and the elevating plate 35 is pushed and raised by the telescopic rod 40, and attached. The facing ends of the lid plate 33 are driven by the gears 36 to roll open, and the solar panel 37 generates solar energy, and the electric storage box 68 stores electricity.

Advantages of the present invention: The present invention can convert the flowing energy of the river stream into assistive kinetic energy, provide some energy for the salvage work, reduce the consumption of electrical energy, and utilize solar energy to charge energy. At the same time, it can generate power with solar energy depending on the weather conditions, and it can also be stored when not in use, extending the service life, and other than that, the power generation by the power plant can be reduced well, which is environmentally friendly.

By the above method, the employee in this field can make various changes according to the work contents within the scope of the present invention.

Claims (9)

In front view, the main body is included, a lifting device is installed on the left side of the main body, and the lifting device includes a fixing plate installed symmetrically at the lower end of the left end surface of the main body, and a roller is provided between the fixing plates. It is rotatably installed, and dust can be pulled up by rotating the roller in the backflow direction. A hydraulic device is installed on the right side of the main body, and the hydraulic device is installed on the right end surface of the main body. A rocker arm is rotatably installed in the tumbling chamber, and a water ring is rotatably installed at the upper end of the rocker arm so as to pull up dust. , The upper end of the rocker arm is turned and the water ring is brought into contact with the water surface, whereby the hydraulic energy can be converted into assistive motion energy, and a solar energy device is installed above the left side of the hydraulic device. The solar energy device can be expanded and contracted and can be used according to the weather conditions. A control device is installed under the solar energy device, a moving rod is installed in the control device, and the moving rod is first described. You can choose to activate the hydraulic device and whether to activate the solar energy device, an energy supply device is installed behind the control device, the energy supply device can provide energy to the lifting device, and said An energy-saving river channel pollutant salvage device characterized by receiving the energy of the assistance movement provided by the hydraulic device. The lifting device includes rotating discs fixedly installed at both front and rear ends of the outer circular surface of the roller, and filter plates are arranged in an annular shape on the outer circular surface of the roller and are fixedly installed to perform the filtration. The plate is located between the turntables and is fixedly connected to the filter plate, and is installed in the roller so that a punch hole penetrates back and forth, and the circumferential inner wall of the punch hole and the roller. The communication ports are arranged in a ring shape and are installed so as to communicate with each other, and each of the communication ports is located between the adjacent filter plates, and the front and rear ends are provided in the holes. A fixed pillar that penetrates the fixed plate and is fixedly connected to the fixed plate is installed, and an outflow passage is installed in the fixed pillar so as to penetrate back and forth, and the upper wall of the outflow passage is installed. The energy-saving river channel pollutant salvage device according to claim 1, wherein a drop opening opened upward is installed in the middle portion so as to communicate with each other. The hydraulic device includes a rotating column that is symmetrically and fixedly installed at the lower end of the front-rear end surface of the rocker arm, and the rotating column is rotatably connected to an inner wall on the same side of the turning chamber. A pulley chamber is installed in the rocker arm, a drive pulley that is coaxial with the rotating column is rotatably installed on the lower side of the pulley chamber, and a driven pulley rotates on the upper side of the drive pulley. It is possible to install, a transmission belt is wound between the drive pulley and the driven pulley, and the water ring is connected to the axial center of the driven pulley symmetrically and fixedly in the front-rear direction, and the rear side said. The energy-saving river channel according to claim 1, wherein a shaft through hole is installed in the rotating column so as to penetrate the front and rear, and a rotating shaft is fixedly installed in the axial center of the drive pulley. Contaminant lifting device. The solar energy device includes a lid plate chamber installed on the upper end surface of the main body, and the lid plate is installed symmetrically and rotatably in the lid plate chamber, and the opposite end of the lid plate is installed. Is rotatably connected to the front and rear walls of the rotating shaft, and the opposite ends of the lid plate are in contact with each other, and an elevating chamber is installed under the lid plate chamber so as to communicate with the elevating chamber. An elevating plate is slidably installed inside, and urging rods are symmetrically and hinged to the left and right ends of the upper end surface of the elevating plate, and the upper end of the urging rod is below the lid plate. The energy-saving river channel pollutant lifting device according to claim 1, wherein a solar panel is fixedly installed in the upper end surface of the elevating plate, which is connected to an end surface by a hinge. A driven slide chamber is installed in the lower end surface of the elevating plate, a driven slide block is installed symmetrically and slidably in the driven slide chamber, and a telescopic rod is installed at the lower end of the driven slide block. Are connected by hinges, and the drive slide chamber is installed symmetrically and communicatively at the lower end of the elevating chamber, and telescopic screw bolts are installed in the drive slide chamber so as to penetrate left and right and rotatably. In the drive slide chamber, a drive slide block connected to the telescopic screw bolt by a screw thread is slidably installed, and after the lower ends of the telescopic rods intersect, the drive slide block is connected to the upper end of the drive slide block with a hinge. The energy-saving river channel pollutant salvage device according to claim 1, wherein the intersecting portions of the telescopic rods are rotatably connected. The control device includes a control chamber installed below the drive slide chamber, the moving rod is slidably installed in the control chamber, and a control motor is located in the left wall of the control chamber. It is fixedly installed, the control screw bolt connected by the moving rod and the female screw is movably connected to the right end of the control motor, and the rack is fixedly installed in the upper end surface of the moving rod. A traction chamber is installed on the lower wall of the control chamber, a traction plate is slidably installed in the traction chamber, a traction block chamber opened upward is installed in the traction plate, and the moving rod is installed. A traction block extending into the traction block chamber is fixedly installed at the right end of the lower end surface of the traction block, and an opening is installed between the traction chamber and the inversion chamber so as to communicate with each other. The energy saving according to claim 1, wherein a tow rod is hinged to the right end of the rocker arm, and the right end of the tow rod penetrates the opening and is hinged to the left end surface of the rocker arm. Type river channel pollution lifting device. A transmission chamber is installed on the upper wall of the control chamber so as to communicate with the transmission chamber, a rack gear that meshes with the rack is rotatably installed in the transmission chamber, and a drive oblique tooth gear is installed on the front side of the rack gear. Are installed coaxially and fixedly, the right end of the telescopic screw bolt extends into the transmission chamber, and the driven oblique gear that meshes with the drive oblique gear is fixedly installed at the right end of the telescopic screw bolt. The energy-saving river channel pollutant salvage device according to claim 1, wherein the device is characterized by being used. The energy providing device includes an energy providing chamber installed behind the control chamber, and the energy providing chamber is installed so as to communicate with the main body and the fixing plate on the rear side. A power motor is fixedly installed in the rear wall, a power spur gear is electrically connected to the front end of the power motor, and a power pulley is coaxially and fixedly connected to the front side of the power spur gear. The rear end of the roller extends into the energy supply chamber, and an annular pulley is fixedly installed at the rear end of the roller, and a power belt is installed between the power pulley and the annular pulley. Is wound around, and a transmission spur gear that meshes with the power spur gear is rotatably installed on the right side of the power spur gear, and a main synchronous pulley is installed synchronously and fixedly on the front side of the transmission spur gear. The rear end of the rotating shaft extends into the energy providing chamber, and a sub-synchronous pulley is fixedly installed at the rear end of the rotating shaft, between the main synchronous pulley and the sub-synchronous pulley. Is the energy-saving river channel pollutant salvage device according to claim 1, wherein a synchronous belt is wound around. The energy-saving river channel pollutant lifting device according to claim 1, wherein an electric storage box is fixedly installed on the upper wall of the energy providing chamber.

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