CN113719399A - Magnetic suspension soft sealing pipe belt machine manufacturing process method and water delivery power generation device - Google Patents

Abstract

The invention relates to a process method for manufacturing a magnetic suspension soft sealing pipe belt machine and a water delivery and power generation device, belonging to the field of tubular belt type liquid delivery, the system can deliver water from a low position to a high position of a steel structure frame water tank or reservoir without limitation for a long distance, can deliver solid materials such as superfine powder and the like, can also utilize a fall multi-stage multi-unit to store water and generate power, is an upgrading and updating product of a multi-stage pump station, can be installed and used with various pressure-resistant water delivery pipes in an alternate butt joint mode, thoroughly changes the traditional process that the traditional multi-stage step pump station has complex pumping engineering and high investment cost, and provides an effective way for large-area rapid greening of barren mountains and distributed power generation. The construction speed is fast, the occupied area is small, the requirement on a water source is not strict, the efficiency is improved by 2-4 times compared with the traditional water pumping and storing power generation, the investment is reduced by more than 30%, the ecology is not damaged, and the method is clean, environment-friendly, low in cost, high in efficiency and good in benefit.

Description

Magnetic suspension soft sealing pipe belt machine manufacturing process method and water delivery power generation device

Technical Field

The invention relates to a manufacturing process method of a magnetic suspension soft sealing pipe belt machine and a water delivery and power generation device, and belongs to the field of water delivery, water storage and power generation of novel pipe belt machines.

Background

The existing material conveying method is more, such as a pipe type, a belt type, a bucket type and the like, and aims to convey materials including solid and liquid from one end to the other end, or from a low end to a high end, the solid materials are mainly conveyed, the requirement on liquid material conveying is high and difficulty is high, the liquid conveying is mainly carried out by a closed pipeline in common conditions, such as common pump type water pumping, high-pressure vacuum pump water pumping and water storage and the like, and the method is a general technology for water pumping, energy storage and power generation, but the investment is large, the efficiency is low, and the process is complex; the other type is that a water tower and a water tank which are fixed at a certain height are used for storing water, turbine generators are arranged at a plurality of positions of a downpipe pressure reducing valve to generate electricity, for example, the invention of Israel Daniel warrior, and a method for generating electricity by fixedly arranging turbine sets at a plurality of pressure reducing valves in a bead-like manner by utilizing pressure pipelines of a building is adopted, but the method can only generate electricity on a small scale, cannot generate electricity on a large scale, and particularly cannot generate electricity on a large scale. The existing pipe belt conveyor mainly uses solid material conveying as a main part and comprises granular materials and powder materials, the basic principle is that a horizontal rubber belt rolls up double-side folded edges through different angles to gradually transition to form a circular pipe shape in a hexagonal carrier roller set, and the head, the tail, the tensioning position and the like of the existing pipe belt conveyor are completely similar to the structural form of a common belt conveyor. The materials are conveyed from a flat belt and are sealed in a pipe by a winding drum device for long-distance conveying, multi-directional turning conveying with the elevation angle less than or equal to 30 can be realized, but no pipe belt conveyor is used for conveying liquid, particularly water; the magnetic suspension belt conveyor is researched by professor Zhangdong morning of Anhui university of Physician in the early period of the century, and the permanent magnet sub-suspension tubular belt conveyor supporting device is researched by Wangshang and the like. The cuboid permanent magnet on tubulose magnetism conveyer belt and the hexagon magnetic force support frame all adopt magnetic material to magnetism is the same, utilizes the principle that homopolar repulsion mutually, makes tubulose magnetism conveyer belt obtain the suspension force, realizes not having mechanical friction contact, reduces the friction when tubulose conveyer transports the material, provides a tubulose belt conveyor strutting arrangement that can realize long distance magnetic suspension transportation, a sub-floated tubulose belt conveyor strutting arrangement of permanent magnetism promptly. However, the liquid conveying device is an improvement on the basis of an original pipe belt machine, liquid conveying is still developed, consideration is not given to a system theory, and a circle with an inertial thinking is not jumped out.

Disclosure of Invention

The invention provides a manufacturing process method of a magnetic suspension soft sealing pipe belt machine and a water delivery power generation device, aiming at the defects that various pipe belt conveyors have large resistance, low speed and untight sealing, can only convey solid materials but can not convey liquid, and the defects of large water pumping and water storage power consumption, low efficiency and the like, the invention firstly proposes the improvement of the existing various pipe belt conveyors, firstly carries out thermal compounding on permanent magnetic strips of a conveying belt, and in the manufacturing process of the conveying belt, the magnetic strips with the length, width and thickness of 100-300, 30-10-80, 3-8 mm are arranged in the middle of the belt and compounded into one to a plurality of homopolar (such as N poles) composite conveying belts along the length direction according to the design requirement; then two groups of homopolar Ru Fe B permanent magnets which correspond to each other left and right are respectively arranged on the front and rear sides of the front and rear ends of a double curved wheel on the inner side of a steel structure support frame of a pipe belt machine, the specification is determined according to the diameter of the pipe belt machine, when water flows into a belt at the tail part of the pipe belt machine and enters the double curved wheel to move forwards through edge folding and circle rolling, the permanent magnets pre-embedded in the pipe belt form a continuous magnetic field to repel with the homopolar permanent magnets on a bottom steel structure support frame to obtain suspension force suspension operation, no mechanical friction contact is realized, the friction of the pipe conveyor during conveying materials is reduced, and no deviation exists, the process adopts three types of commercially available 8# specially-made special waterproof high-strength zinc alloy sealing zippers (buckles) edge sealing ports or soft magnetic edge folding pressing strip sealing and 45-degree oblique soft magnetic suction sealing ports, any one of the processes of waterproof sealing of two sides of a belt winding drum and no water leakage conveying liquid in the middle of head opening, can flexibly arrange water conveying liquid in a 30-degree elevation angle, the water is quickly transported from a low position to a high position reservoir or a water tank at low cost to irrigate a fertile field and afforest barren mountains, and the water tank can also store water and generate electricity by multiple stages of units.

1. The process flow comprises the following steps:

1. 1, manufacturing a magnet adhesive tape:

making bottom layer belt 2-5mm → putting Ru FeB magnetic strip 3-5mm → surface layer belt compounding 3-4 → winding drum → standby

1. 2, manufacturing a steel structure support:

terrain exploration → circuit scheme → design drawing → concrete foundation construction → installation of conveyer belt support frame → installation of tail, head roller, support wheel, tension wheel, and compression wheel → installation of double curved wheel → installation of magnetic strip support → installation of magnetic strip → installation of belt → butt joint of belt joint → installation of soft magnetic strip compression device → debugging → air operation → water injection test operation → formal commissioning

1.3, installation of a water delivery power generation system:

1.3.1 the pipe belt machine water delivery and water storage type multifunctional irrigation and power generation:

selecting a water source site of a pipe belt machine → constructing a water source gate and a water delivery tank → installing a gate valve control system → installing the pipe belt machine → installing a water discharging system at the head of the pipe belt machine.

1.3.2 pipe belt machine water delivery tank type power generation

Construction of a water source gate and a water delivery tank → installation of a gate valve control system → construction of a water tank into a reservoir chute → installation of a water discharging system at the head of a pipe belt machine → installation of a pipe belt machine and a fixed magnet → installation of the water discharging system at the head of the pipe belt machine → installation of a water tank → installation of a water turbine → installation of a large gear → installation of a generator → backflow of tail water.

2. The invention relates to a pipe belt machine operation process flow which comprises the following steps:

the pipe belt machine is that the flat belt starts to run after edge curling, rectifying and sizing, when the tail part runs to the folding position of the two sides of the belt through the tuggers with different angles by means of electric and mechanical operation, the two sides of the belt are manually plugged into the zipper lock catch, the belt is locked while moving, the large pipe belt machine can also increase the soft magnetic pressing strips on the two sides of the belt at the top part to cover the zipper lock catch, the belt runs to the head part and then is separated by the zipper pulling device, the reverse zipper lock catch is manually buckled at the end of the zipper to separate the zipper, then the belt runs into the front end flat belt wheel with the assistance of the two side unfolding wheels, the belt passes through the flat belt wheel and is butted with the return belt port, the upper belt and the lower belt are connected to form a circulating belt, the belt is tensioned to the required tightness under the action of the hydraulic tension wheel, then idling debugging is carried out, and the water is discharged and run after all indexes reach the standard; when the reservoir is designed, water is directly injected into the reservoir from a water outlet of the head, then a water pipe or an opening is arranged at a proper position of the reservoir for water diversion irrigation, and a power station can be designed at the downstream of the reservoir for power generation in slack season or peak shaving; the scheme of water tank power generation is designed, a water tank is directly installed at the water outlet of the pipe belt machine, a water turbine is installed at the lower portion of the water tank, the water turbine drives an engine to generate power, and tail water returns to be recycled.

3. The core technology of the invention is as follows: the method is characterized in that when a belt of the existing pipe belt machine is used as the belt of the pipe belt machine, soft magnetic adhesive tapes are respectively stuck to the inward 10-25 cm positions of two side edges of the same surface of the belt, the S-shaped extremely soft magnetic sealing strip with a plurality of semicircular grooves designed by the process is stuck, and the groove depth is about 0.3-1.5 mm; the inner side edge of the upper part of the belt is adhered with a plurality of N pole soft magnetic sealing strips with semicircular convex strips and corresponding to grooves, the radius is 0.5-2mm, the widths of the upper sealing strip and the lower sealing strip are both 100-240mm, the sealing is tight and watertight after butt joint, and the thickness of the soft magnetic sealing strips can be adjusted according to actual needs.

The end heads on two sides of the belt are thickened properly to form a 45-degree slope, a mortise or a groove is arranged on one side of the belt and is an S pole, and a tenon or a raised line for short is arranged on the other side of the belt and is an N pole.

The water delivery power generation adopts different modes to carry out tubular belt conveyors to convey water from a low end to a high end aiming at different water sources, and the tubular belt conveyors can carry out linear conveying, curved conveying, single-pipe conveying and multi-pipe parallel conveying. The long-distance water conveying device can be used for long-distance conveying, can also be used for butt joint of a pipe belt conveying pipe and a fixed pipe and various pressure-resistant conveying pipes such as a pressure-resistant seamless steel pipe, a plastic pipe and a glass fiber reinforced plastic pipe, long-distance water conveying is exchanged repeatedly, and low-cost operation is realized by utilizing the characteristic that water flows to a low position. When water is conveyed to a water tank or a reservoir at a certain height and used for greening the desert, a water pipe is directly embedded at a proper position at the lower end of the water tank or the reservoir to form irrigation, sprinkling irrigation, drip irrigation and the like, for example, when the water tank or the reservoir is used for generating electricity, a valve is arranged at a proper position at the bottom of the water tank or the reservoir to introduce water into a water falling pipe to form a fall, the water enters a water turbine to drive the water turbine and a large gear which is coaxial and symmetrical outside the water turbine, a plurality of groups of generating sets are respectively arranged at the bottom or the periphery of the large gear, and therefore, the generator is driven to generate electricity; the method is characterized in that a water inlet gate is erected on the bank side of a certain section of a water system, a tail expansion section of a tubular belt conveyor is arranged at the corresponding position of the gate on the lower side of the gate, water at the upper end of the gate is quickly filled in a pipe cavity through a depression angle transition section and quickly enters the pipe cavity section to run synchronously at an elevation angle, inertia force is added to the pipe cavity section to run to a set height, a circular pipe is opened through a head water drainage device, the water in the pipe automatically flows into a water tank or a reservoir, and a belt returns to the tail from a bottom flat roller or a U-shaped roller way after the head is drained, so that the circular production is realized. When the water is used for generating electricity, the water level of a water tank or a reservoir is stored to a certain amount and then the electricity is generated, the water level height of the water tank is generally more than 6 meters, a valve is arranged at a proper position of the water tank or the reservoir below 6 meters to guide water to the closed pipeline, the slope of 45 degrees to 70 degrees is generally taken to fall, the valve is arranged at the position of 10-20 meters of fall at the lower end of the pipeline, a matched water turbine is arranged at the lower side of the valve, and large gears symmetrically and synchronously rotating at the two sides of the water turbine drive a generator on the same shaft of the small gears at the bottom or on the periphery to generate electricity;

2, non-flowing lake water or artificial stored water is used for conveying water to a set height, and a plurality of water tanks are set to realize multi-stage multi-unit power generation; the fall is generally 20 meters, and can be increased or decreased according to the situation. One group of hydraulic turbines can be provided with 2-8 generators, the pipe cavities and the hydraulic turbine shells are fixedly installed in a sealing way, the two coaxial sides of the hydraulic turbines are led out, big gears or belt pulleys are respectively installed, the big gears drive small gears at the bottom or the periphery to drive coaxial generator sets to generate electricity, one big gear can drive one generator set to N generator sets to generate electricity simultaneously, can be adjusted according to the water quantity, usually, a single engine is symmetrically started, a small gear on a generator is respectively pushed to a large gear which is already rotated by an electric actuator, another group of meshing is synchronously and symmetrically started after the normal operation, and the rest are analogized in turn, if the flow is insufficient, the electric control system starts an automatic switching signal, the electric actuator is automatically started to automatically disconnect the generator set, other units still can normally continue to generate electricity, and if the water inflow and the pressure are overlarge, the water inflow and the pressure are automatically adjusted by the water inlet valve and are always controlled to operate in a stable voltage Hertz range. If only pumping water to generate electricity, the water discharged after the electricity generation can be returned to the original place for recycling.

The invention has the advantages of

1. The tubular belt type water delivery and multi-unit water delivery power generation process device is utilized, the water pumping process of the traditional water pumping multi-stage pump station is changed, the water pumping resistance is reduced, the water delivery efficiency is greatly improved, the engineering quantity is saved, water can be pumped to the mountain, a reservoir is arranged at a certain height of the mountain head for storing water, then a water delivery pipeline is laid for sprinkling irrigation, the mountain and the desert are irrigated by drip irrigation for greening, the multi-stage multi-unit power generation can be realized, the upper stage water rapidly flows into the lower stage unit for repeated multi-stage multi-unit power generation at the gradient of 45-70 degrees, the water which has generated power can be returned to the original place for repeated utilization, the water energy is fully utilized, the water turbine and the generator are separately arranged, the energy conversion is multiplied, and the half-work effect is obtained.

2. The application range is wide, the tubular belt can be used for water delivery and power generation in a flowing water area, the water can be delivered and power generation can be carried out in a lake or a pool without flowing, and the tail water is discharged into the original lake or pool for recycling without destroying ecology and reducing water quantity; besides water delivery and power generation, the device can also deliver other liquids, and can also utilize sewage pool water delivery circulation power generation and seaside water delivery circulation power generation.

3. The investment can be freely collected and released, the scale can be large or small, the benefit is instant, the risk is completely controllable, the influence goes deep into the civilian mind, and the policy conforms to the trend; the water and power transmission technology is a water and power generation technology with large volume and large amount.

4. The conveying line can be flexibly arranged along a straight line, a folded line and a curved line, the regulation of water pumping and water storage power generation is greatly improved, and the installed capacity water conveying efficiency is 2-3 times of the water pumping and water storage power generation efficiency.

5. The system can perform distributed power generation in remote areas, can also be used for large-grid-connected power generation, has good stability and is suitable for large-grid power generation.

6. The speed of the common tubular belt type water delivery is 2.5-5 meters per second, the speed of the magnetic suspension pipe belt machine water delivery is 5-10 meters per second, the pipe belt water synchronous operation is about 1.53 times to 5-6 times of water pumping and water delivery, the efficiency is extremely high, the pipe belt machine water delivery is not limited by landforms, and the pipe belt machine water delivery is the best scheme for providing water sources for greening barren mountains in the future water delivery.

7. The system occupies a small area, basically has no relocation, does not destroy the ecology, does not pollute the environment, and is a clean, sanitary, rapid and effective water delivery, irrigation and power generation multifunctional integrated process technical device.

8. Small investment, large energy, quick recovery and good benefit.

Drawings

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

FIG. 1 is a schematic view of a magnetic suspension soft sealing pipe belt machine manufacturing process and a water delivery power generation device;

FIG. 2 is a schematic elevation view of the structure of FIG. 1;

FIG. 3 is a schematic cross-sectional view of a hyperbolic tug of a tubular conveyor belt;

FIG. 4 is a schematic view of a water leakage preventing soft magnetic snap fastener of a tubular belt;

FIG. 5 is an enlarged view of FIG. 4;

FIG. 6 is an expanded view of the strap;

FIG. 7 is a schematic view of a soft magnetic strip lap seal;

FIG. 8 is an enlarged view of the joint of FIG. 7;

FIG. 9 is a schematic view of a 45 degree soft magnetic suction seal;

FIG. 10 is a schematic view of a hydro turbine generator set;

FIG. 11 is a cross-sectional view of FIG. 10;

FIG. 12 is a schematic view of a water-delivering and water-storing type multifunctional irrigation and power generation process with a pipe belt machine.

Description of reference numerals:

1 is a gate valve concrete foundation of a water supply device fixed in a water system, 1-1 is an electric gate valve capable of vertically lifting, 2 is a belt, 2-1 is a permanent magnet strip arranged in the belt, fig. 5 is a schematic diagram of an overlapped belt, 2-2 in fig. 5 is a composite micro concave convex surface pressing strip for pressing an edge N pole on the belt, 2-3 is a soft magnetic sealing strip for pressing an edge S pole on the bottom belt, fig. 6 is a schematic diagram of a 45-degree soft magnetic suction sealing strip, 2-4 in fig. 6 is an upper 45-degree soft magnetic suction N pole, and 2-5 is a lower 45-degree soft magnetic suction S pole; 3 is a flat belt roller at the tail part of the drawing 2, 3-1 is a flanging roller, 3-2 is an error correcting wheel, 3-3 is a shaping wheel, and 3-4 is a return belt dragging wheel; 4 is the belt hyperbolic idler wheel in fig. 2 and fig. 3, 5 is the zinc alloy anti-leakage zipper in fig. 4 and fig. 5, 6 is the soft magnetic sealing layering on the top of the belt in fig. 1, fig. 4 and fig. 5, 6-1, 6-2 and 6-3 in fig. 2 are respectively the tension wheel of 6, the soft magnetic tape and the return wheel, 7 is the tubular belt opening zipper, 8 is the belt unfolding head belt rotary drum, 8-1 and 8-2 are the return belt pinch roller, the tension wheel and other components; 9 is a steel structure bracket truss of the pipe belt conveyor, 9-1 is permanent magnets arranged on two sides of the bottom of a steel structure, and 9-2 is two groups of symmetrical permanent magnets arranged on the top of the steel structure; FIG. 2 is a water tank 10, a super-strong magnetized small molecule water device 10-1, an electric valve 10-2, an exhaust valve 10-3, a pressure sensor 10-4 and a flow sensor 10-5 in FIG. 7; in FIG. 8, 11 is a water turbine, 11-1 is a central rotating shaft, 11-2 is a water turbine bucket, 11-3 is a water turbine baffle, 11-4 is a large gear on two sides, 12 is a generator, and 12-1 is a small gear on the generator.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figures 1-12, a process for manufacturing a magnetic suspension soft sealing pipe belt machine and a water delivery power generation device, a concrete base 1 is built at a proper section of a water source place, a vertically lifting electric gate valve 1-1 is installed on the pre-designed concrete base, a water collecting tank is designed below the back water surface of the 1-1 and is lower than the gate valve 1-1, a tail water inlet section of a belt roller steel structure frame body 9 is installed in the tank, the rear end of the frame body is tightly close to the lower edge of a water supply opening, the inclination angle is controlled to be less than or equal to minus 30 degrees, then a belt 2 is gradually lifted up to form a semicircle to a nearly circle shape through a roller 3 and two side edge folding rollers 3-1 and 3-2, the two ends of the belt are manually placed into a water-resistant and high-strength zinc alloy zipper or a soft magnetic sealing device 5 after entering a belt interface through a belt deviation correcting device 3-3 shaping device 3-4, the belt is locked by a zipper in operation, and the additional soft magnetic sealing pressing strip 6 at the upper part can be automatically unfolded according to the situation and covered on the belt along the trend of the zipper for reinforcement, so that omission caused by inaccurate sealing in the pipe is prevented again; when the belt runs to the head, the belt is returned by a winding drum 6-1 and a tension pulley 6-2 series running pulley 6 for recycling, the middle normal end adopts 4 double-curved pulleys or a traditional hexagonal roller for supporting and running, when the belt runs to the head, the belt is separated by a reverse opening zipper device 7, the belt is returned by a head belt opening device 8 and is conveyed to the tail through a return system consisting of a pressing and tension pulley 8-1 and 8-2 series components for continuous recycling and reciprocating, and the belt can also be returned by a double-curved pulley or a traditional hexagonal tug. When the belt runs to the tail part and is in a relatively gentle zone, the belt is butted into a complete rotary running belt, the butt joint is usually the field butt joint of the traditional vulcanization heat seal method, 9 is a steel structure bracket truss of a pipe belt machine, 9-1 is permanent magnets arranged at two sides of the bottom of a steel structure, and 9-2 is two groups of symmetrical permanent magnets arranged at the top of the steel structure; after normal no-load operation, water flows into the gate valve 1-1 rapidly 3, flows into the double-curve wheel 4 through the gate valve 3-1, the gate valve 3-2, the gate valve 3-3 and the edge folding deviation rectifying drum, enters the zipper 5 for sealing, the pipe belt 2 filled with water is operated in a totally-closed mode on the double-curve wheel 4 through the permanent magnet strips 9-1 on the two sides of the inner side of the corresponding bottom steel structure, the permanent magnet strips 9-1 on the two sides of the inner side of the corresponding bottom steel structure repel each other when passing through the double-curve wheel, magnetic suspension force is formed, the pipe belt is supported and operated by two hands, the two groups of permanent magnets 9-2N arranged at the lower end of the steel structure at the top repel each other, water and the pipe belt synchronously suspend and operate without friction under the action of mechanical traction force and inertia force, and the water is continuously conveyed from the low end to the high end. The water in the pipes falls into a water tank or a reservoir in a centralized way through water outlets, taking the water tank 10 as an example, when the water reaches the upper water level of the water tank, the water pressure of the water level with a certain height is always kept, the capacity of the water tank at the uppermost part is larger, except for providing power water for a water turbine at the bottom of the water tank, branch pipe supplement is directly provided when the water pressure flow of the water tank at the lower part is insufficient, and a plurality of water turbines are always kept to work in a balanced state; when the water tank on the top is filled to the upper water level, the valve of the downpipe on the bottom is automatically started, a 10-1 super-strong magnetized small molecular water device is arranged below the valve, common water is synchronously cut into small molecular water, air resistance is reduced by bubbles, density and flow rate are improved, a bottom pipeline is provided to instantly enter the water turbine 11, a water bucket 11-2 of the water turbine is stressed to push the water turbine to rotate, water energy is converted into mechanical energy through a central rotating shaft 11-1 to drive large gears at two ends 11-4 to rotate, then a generator set 12 is synchronously driven to generate electricity through meshing of small gears on a generator at the bottom 12-1, and finally the mechanical energy is converted into electric energy; the water after acting directly flows into the bottom water tank, and when the water reaches an upper water level line, a lower valve of the water tank is started to enable a next group of water turbines to rotate to drive the generator set to generate electricity; and then, the rest is analogized in the following way to drive all the engines to generate power uninterruptedly, and the whole process is automatically controlled; the water storage power station firstly stores the reservoir full of water, then the engine set is vertically arranged on the multiple stages of multiple sets according to the landform and the landform at a proper position for power generation, and the single set or the multiple stages of multiple sets can be flexibly arranged according to the slope for power generation. In order to save investment, the method can be carried out by combining the water conveying of the pipe belt and the water conveying of the fixed pipe.

Claims (5)

1. The invention provides a water delivery power generation device of a magnetic suspension soft sealing pipe belt conveyor, which aims at the defect that various pipe belt conveyors can only convey solid materials but not liquid at present, and firstly provides a new device for improving the existing various pipe belt conveyors, wherein water delivery can be flexibly arranged in an elevation angle of 30 degrees by adopting the technologies of water prevention, sealing, high-strength zipper sealing, soft magnetic folding pressing strip sealing, 45-degree inclined-opening soft magnetic suction sealing and the like at folding edge folding joints of the pipe belt conveyors or any one of the technologies for belt drum sealing and water leakage-free liquid delivery; the device can be used for conveying various liquids and can also be used for water conveying and power generation.

2. The magnetic suspension soft sealing pipe belt conveyor water delivery power generation device is characterized in that a flat belt is used for forming a winding drum pipe belt water delivery through a flanging winding drum, the water in the pipe belt can automatically flow into a pre-designed water tank or reservoir when the pipe belt water delivery reaches a certain height, the core technology is the sealing of a pipe belt interface, the process is completed by three process methods of a high-strength waterproof soft magnetic zipper, a soft magnetic lap joint mortise and tenon and a 45-degree oblique soft magnetic suction, one of the process can be adopted according to the pipe diameter, and the process can be used for long-distance uninterrupted water delivery.

3. The water delivery and power generation device of the magnetic suspension soft sealing pipe belt conveyor is characterized in that the pipe belt conveyor directly delivers water to flow into a water tank or a reservoir at the top of a mountain, water conservancy is installed at a proper position at the lower part of the pipe belt conveyor for implementation, and the desert can be greened without independently powering on.

4. The water delivery power generation device of the magnetic suspension soft sealing pipe belt conveyor is characterized in that high-fall multi-stage multi-unit power generation can be utilized.

5. The water delivery and power generation device of the magnetic suspension soft sealing pipe belt conveyor is characterized in that one pipe belt can deliver water in a long distance, and multiple pipe belts can also deliver water in parallel and fixed pipes comprising pressure-resistant seamless steel pipes, plastic pipes and glass steel pipes in an alternate and alternate connection mode; the water can be delivered through a single pipeline, or through double pipelines and multiple pipelines in parallel.

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