CN114455058B

CN114455058B - Environment-friendly solar farmland yield-increasing instrument

Info

Publication number: CN114455058B
Application number: CN202210264874.2A
Authority: CN
Inventors: 孙爱权; 陈密; 顾秀珍; 陈俊达
Original assignee: Suzhou Jingrong Environmental Protection Technology Co ltd
Current assignee: Suzhou Jingrong Environmental Protection Technology Co ltd
Priority date: 2022-03-17
Filing date: 2022-03-17
Publication date: 2024-02-20
Anticipated expiration: 2042-03-17
Also published as: CN114455058A

Abstract

The technical scheme of the invention discloses an environment-friendly solar farmland yield increasing instrument, which belongs to the technical field of agricultural products and comprises an airship, a dragging device, a double-circulation hot air blower, a wire winding and unwinding device and a foundation power supply storage device, wherein the foundation power supply storage device supplies power for the airship in a mode of combining photovoltaic power generation with battery charging. A winding and unwinding device is arranged in the foundation power supply storage device, and can synchronously rotate along with the airship while the airship is pulled, so that the problem that a traction rope is repeatedly subjected to torque to cause material fatigue to break is avoided. The winding and unwinding device is connected with the airship, the winding and unwinding device is arranged on the ground power supply storage device, the airship is self-powered and flies in the air under the action of the traction rope, the airship can do circular motion in the air around the ground power supply storage device, and meanwhile, the airship emits electromagnetic waves downwards in the air to promote the growth of crops. Compared with the prior art, the problem of energy attenuation caused by the blocking of electromagnetic waves by plants and the ground is solved.

Description

Environment-friendly solar farmland yield-increasing instrument

Technical Field

The invention relates to the technical field of agricultural products, in particular to an environment-friendly solar farmland yield increasing instrument.

Background

The special electromagnetic wave (TDP) treatment has a certain beneficial effect on superoxide dismutase (SOD) activity of 14 crops such as sorghum, mung bean and the like, and according to reports (13-16 in 2 nd stage of 1993 of the core of the university of Beijing agricultural university, 4 pages in the year) that the SOD activity is measured by a nitrotetrazolium chloride (NBT) photochemical reduction method through periodic sampling, the result shows that the SOD activity in plant tissues is obviously improved by 0.25-50 mu m electromagnetic wave, the increasing amplitude is generally 6-60%, and no negative growth is found.

The technology is applied to agricultural production at present, most of the equipment applying the technology is a fixed base station built on the ground, so that electromagnetic waves are emitted horizontally to promote plant growth, but the technology has a certain problem when being applied to agriculture, because plants and the ground have certain electromagnetic wave attenuation effects, the range of the electromagnetic wave action of horizontal emission is very limited, the efficiency is very low, a plurality of base stations are required to be built repeatedly to improve the coverage of the electromagnetic waves, thus not only leading to the doubling of the construction cost, but also causing certain difficulty in later maintenance, and a new technical scheme is provided for the inventor to improve the utilization efficiency of the electromagnetic waves.

Disclosure of Invention

Therefore, the invention provides an environment-friendly solar farmland yield increasing instrument which downwards emits electromagnetic waves in an air dragging mode and solves the problem of high construction and maintenance cost caused by low electromagnetic wave utilization efficiency in the prior art.

In order to achieve the above object, the present invention provides the following technical solutions:

the invention discloses an environment-friendly solar farmland yield increasing instrument which comprises an airship, a towing device, a double-circulation hot air blower, a take-up and pay-off device and a foundation power supply storage device, wherein the take-up and pay-off device is arranged in the foundation power supply storage device and is connected with the airship, the towing device is arranged on the side surface of the airship, the airship passes through the towing device and is connected with the take-up and pay-off device, and the double-circulation hot air blower is arranged at the end part of the airship.

Further, the airship comprises a hot air bag, a motor propeller, an electromagnetic wave generator, a folding framework and a traction rope, wherein the winding and unwinding device is connected with one end of the traction rope, the other end of the traction rope is connected with the electromagnetic wave generator, the electromagnetic wave generator is arranged in the middle of the folding framework, the motor propeller is arranged at one end of the folding framework, a double-circulation hot air blower is arranged at the other end of the folding framework, the double-circulation hot air blower is communicated with the hot air bag, and the hot air bag is fixedly wrapped on the folding framework.

Further, the folding skeleton includes a plurality of supporting beams, branch, articulated ring, spring and central bracing piece, the fixed cover of electromagnetic wave generator is established on the central bracing piece, the both ends of central bracing piece are articulated to have a plurality of supporting beams, and arbitrary one supporting beam articulates with the one end of branch, the other end of branch articulates with the articulated ring, the quantity of articulated ring is two, two articulated ring cover is established at central bracing piece both ends and is located electromagnetic wave generator both ends, arbitrary one articulated ring offsets with electromagnetic wave generator through the spring of cover on the central bracing piece.

Further, the double-circulation hot air blower comprises a sealing cover, an electric air blower, a push-pull electromagnet, a double-circulation pipe and an electric heater, wherein the end part of the central supporting rod is connected with the electric heater, the electric heater is communicated with the hot air bag, the electric heater is arranged at one end of the double-circulation pipe, the electric air blower is movably arranged at the other end of the double-circulation pipe, the electric air blower is fixedly arranged on the sealing cover, the sealing cover is arranged at the end part of the push-pull electromagnet, and the push-pull electromagnet is fixedly arranged on the electric heater.

Further, the double-circulation pipe comprises an outer ventilation pipe and an inner ventilation pipe, the electric blower is movably inserted into one end of the outer ventilation pipe, the other end of the outer ventilation pipe is communicated with the electric heater, the electric heater is communicated with one end of the inner ventilation pipe, and the other end of the inner ventilation pipe is communicated with the middle of the outer ventilation pipe.

Further, the towing device comprises a telescopic base, a telescopic rod, a towing pipe, a connecting rod, a hinging seat and a magnet, wherein the telescopic base is fixedly arranged on the hot air bag, the telescopic rod is movably inserted on the telescopic base, the end part of the telescopic rod is hinged with one end of the connecting rod, the other end of the connecting rod is hinged with the towing pipe, the towing pipe is hinged on the hinging seat, the hinging seat is fixedly arranged on the telescopic base, and a traction rope is arranged in the towing pipe in a penetrating manner.

Further, the haulage rope includes rope body and iron plate, the rope body is woven by nylon wire, data line and power cord and is formed, fixed cover is equipped with the iron plate on the rope body, the iron plate is connected with magnet magnetism, the other end of the rope body links to each other with the wire winding and unwinding ware.

Further, the winding and unwinding device comprises a winding roller, a winding frame, a winding motor and a bearing, wherein the other end of the rope body is connected with the winding roller, the winding roller is movably mounted on the winding frame, the winding frame is welded on the bearing, the winding motor is mounted on the winding frame, and the winding motor is in transmission connection with the winding roller.

Further, ground power supply storage device includes protection shield, magnetic stripe, wire groove, base and solar panel, the bearing housing is established at the wire inslot, the wire groove sets up on the base, four protection shields are articulated all around of base, the border department of protection shield is provided with the magnetic stripe, the protection shield inner wall is provided with solar panel.

Further, the four protection plates are combined to form a square tip body shape.

The invention has the following advantages:

according to the technical scheme, the dragging device is arranged on the side face of the airship, the dragging direction of the dragging rope is controlled through the dragging device, so that the airship can lift off in the vertical direction, the end part of the airship is provided with the double-circulation hot air blower, the double-circulation hot air blower is communicated with the inside of the airship, the air temperature in the airship is increased, the density is reduced, the airship is enabled to generate buoyancy, and the airship emits electromagnetic waves downwards in the air to promote the growth of crops. Compared with the prior art, the method for horizontally transmitting the electromagnetic waves by the ground base station not only solves the problem of energy attenuation caused by the blocking of plants and the ground, but also greatly expands the action range of the electromagnetic waves, thereby reducing the construction quantity of the ground base station and reducing the construction and later maintenance cost.

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 will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the invention, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present invention, should fall within the ambit of the technical disclosure.

FIG. 1 is a perspective view of an environment-friendly solar farmland yield-increasing instrument provided by the invention;

FIG. 2 is a perspective view of a towing device of the environment-friendly solar farmland yield increasing instrument provided by the invention;

FIG. 3 is a perspective view of a dual cycle hot air blower of the environmental protection type solar farm yield increasing instrument provided by the invention;

FIG. 4 is a perspective view of a folding skeleton of the environment-friendly solar farmland yield-increasing instrument provided by the invention;

FIG. 5 is a perspective view of an airship provided by the invention for an environment-friendly solar farmland yield-increasing instrument;

FIG. 6 is a perspective view of a take-up and pay-off device of the environment-friendly solar farmland yield-increasing instrument;

FIG. 7 is a perspective view of a foundation power supply storage device of the environment-friendly solar farmland yield-increasing instrument;

FIG. 8 is a perspective view of a hauling rope of the environment-friendly solar farmland yield-increasing instrument;

FIG. 9 is a cross-sectional view of a double circulation pipe of an environment-friendly solar farmland stimulation device provided by the invention;

FIG. 10 is a schematic diagram of the function of a double circulation pipe of the environmental protection type solar farmland yield increasing instrument;

in the figure: 1, an airship; 11 a thermal balloon; 12 motor propellers; 13 an electromagnetic wave generator; 14 folding the framework; 141 supporting beams; 142 struts; 143 a hinge loop; 144 springs; 145 a central support bar; 15 traction ropes; 151 rope bodies; 152 iron blocks; 2, a dragging device; a 21 telescopic base; 22 telescopic rods; 23 towing the tube; 24 connecting rods; 25 hinge seats; 26 magnets; 3 double circulation hot air blower; 31 closing the cover; 32 electric blowers; 33 push-pull electromagnet; 34 double circulation tubes; 341 an outer vent; 342 internal ventilation tube; 35 electric heaters; 4, a wire winding and unwinding device; 41 a wire winding roller; 42 bobbins; 43, a wire winding motor; a 44 bearing; 5, a foundation power supply storage device; a 51 protection plate; 52 magnetic strips; 53 wire-laying grooves; 54 a base; 55 solar panel.

Detailed Description

Other advantages and advantages of the present invention will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-10, the technical scheme of the invention discloses an environment-friendly solar farmland yield increasing instrument, which comprises an airship 1, a towing device 2, a double-circulation hot air blower 3, a pay-off and take-up device 4 and a foundation power supply storage device 5, wherein the foundation power supply storage device 5 supplies power to the airship 1 in a mode of combining photovoltaic power generation with battery charging. The winding and unwinding device 4 is arranged in the foundation power supply storage device 5, and can synchronously rotate along with the airship 1 while the airship 1 is pulled, so that the problem that the pulling rope 15 is broken due to material fatigue caused by repeated torque action is avoided. The take-up and pay-off device 4 is connected with the airship 1, the take-up and pay-off device 4 is arranged on the ground power supply storage device 5, the airship 1 flies in the air due to self-powered force, and meanwhile, the airship 1 can do circular motion in the air around the ground power supply storage device 5 due to the action of the traction rope 15, and meanwhile, the airship 1 can emit electromagnetic waves downwards in the air to promote the growth of crops. Compared with the prior art, the method for horizontally transmitting the electromagnetic waves by the ground base station not only solves the problem of energy attenuation caused by the blocking of plants and the ground, but also greatly expands the action range of the electromagnetic waves, thereby reducing the construction quantity of the ground base station and reducing the construction and later maintenance cost. The airship 1 is provided with a towing device 2 on the side surface, and the towing device 2 controls the towing direction of the towing rope 15, so that the airship 1 can be lifted off in the vertical direction. The end of the airship 1 is provided with a double-circulation heat blower 3, and the double-circulation heat blower 3 is communicated with the interior of the airship 1, so that the temperature of air in the airship 1 is increased, the density is reduced, and the airship 1 generates upward buoyancy.

According to a specific embodiment of the present disclosure, the airship 1 includes a thermal airbag 11, a motor propeller 12, an electromagnetic wave generator 13, a folding skeleton 14, and a hauling cable 15, the wind-up and wind-down device 4 is connected to one end of the hauling cable 15, and the other end of the hauling cable 15 is connected to the electromagnetic wave generator 13, in which embodiment the hauling cable 15 also functions to supply power to the electromagnetic wave generator, so that the electromagnetic wave generator continuously emits electromagnetic waves. The electromagnetic wave generator 13 is arranged in the middle of the folding skeleton 14 to keep the electromagnetic wave generator 13 stable in installation. One end of the folding skeleton 14 is provided with a motor propeller 12, and the motor propeller 12 also takes electricity from a traction rope 15, so that the hot air bag 11 can fly forwards. The other end of the folding skeleton 14 is provided with a double-circulation hot air blower 3, and the double-circulation hot air blower 3 is communicated with the hot air bag 11 so as to introduce hot air flow into the hot air bag 11. The hot air bag 11 is fixedly wrapped on the folding framework 14, the folding framework 14 plays a role in supporting the hot air bag 11, and the folding framework 14 can be lifted into the air by buoyancy generated by the hot air bag 11.

According to an embodiment of the present disclosure, the folding skeleton 14 includes a support beam 141, a strut 142, a hinge ring 143, a spring 144, and a center support bar 145, and the electromagnetic wave generator 13 is fixedly sleeved on the center support bar 145 to be stable. The two ends of the central supporting rod 145 are hinged with a plurality of supporting beams 141, any one supporting beam 141 is hinged with one end of a supporting rod 142, the other end of the supporting rod 142 is hinged with two hinging rings 143, the two hinging rings 143 are sleeved at the two ends of the central supporting rod 145 and are positioned at the two ends of the electromagnetic wave generator 13, and as shown in fig. 4, the two ends of the central supporting rod 145 are in the shape of umbrella ribs. Any one of the hinge rings 143 is propped against the electromagnetic wave generator 13 through a spring 144 sleeved on a central supporting rod 145, the hot air bag 11 is in a capsule shape under the support of the elasticity of the spring 144, and when the double-circulation hot air blower 3 exhausts air from the outside of the hot air bag 11, the hot air bag 11 is contracted, so that the folding framework 14 is pressed to be folded, and the double-circulation hot air blower is conveniently stored in the foundation power supply storage device 5.

According to one embodiment of the present disclosure, the dual circulation heat blower 3 includes a cover 31, an electric blower 32, a push-pull electromagnet 33, a dual circulation pipe 34, and an electric heater 35, the end of a central support rod 145 is connected to the electric heater 35, and the electric heater 35 is in communication with the heat air bag 11, the electric heater 35 is disposed at one end of the dual circulation pipe 34, the electric blower 32 is movably disposed in the other end of the dual circulation pipe 34, and the electric blower 32 is used for promoting air flow. The electric blower 32 is fixedly arranged on the cover 31, the cover 31 is arranged at the end part of the push-pull electromagnet 33, the push-pull electromagnet 33 is fixedly arranged on the electric heater 35, and a temperature sensor is arranged in the hot air bag 11 to monitor the air temperature so as to be matched with the adjustment of the heating power of the electric heater 35.

According to one embodiment of the present disclosure, the dual circulation pipe 34 includes an outer ventilation pipe 341 and an inner ventilation pipe 342, the electric blower 32 is movably inserted into one end of the outer ventilation pipe 341, the other end of the outer ventilation pipe 341 is connected to the electric heater 35, the electric heater 35 is connected to one end of the inner ventilation pipe 342, and the other end of the inner ventilation pipe 342 is connected to the middle of the outer ventilation pipe 341. In the present solution, as shown in fig. 9-10, the dual circulation heat blower 3 has three operating states in total;

(1) Inflation state: the push-pull electromagnet 33 pushes the sealing cover 31 open, at the moment, the electric blower 32 rotates positively, and outside air enters the electric heater 35 through the outer ventilation pipe 341 and the inner ventilation pipe 342 simultaneously, as shown in fig. 10, at the moment, the heating power of the electric heater 35 is highest, so that hot air flows into the hot air bag 11, the buoyancy of the hot air bag 11 is improved, and the hot air bag 11 is lifted off;

(2) Exhaust state: the push-pull electromagnet 33 pushes the sealing cover 31 open, at this time, the electric blower 32 is reversed or stopped, the electric heater 35 stops heating, and hot air is discharged through the outer vent pipe 341 and the inner vent pipe 342 at the same time, as shown in fig. 10, the buoyancy of the hot air bag 11 is reduced, and the hot air bag 11 falls down;

(3) An internal circulation state; the push-pull electromagnet 33 pulls down the sealing cover 31 to enable the connecting end of the outer vent pipe 341 and the outside to be closed, at the moment, the electric blower 32 moves downwards to a position below the inner vent pipe 342, the electric blower 32 is started to circulate the air in the hot air bag 11 through the outer vent pipe 341 and the inner vent pipe 342, the electric heater 35 is used for keeping the temperature in the hot air bag 11 constant, at the moment, the hot air bag 11 is in a suspension state and can do circular motion around the wire winding and unwinding device 4, the electric heater 35 properly reduces the heating power according to the temperature in the hot air bag 11, and the cruising state of the hot air bag 11 is maintained under the condition that the buoyancy of the hot air bag 11 is kept constant, and the energy consumption is reduced;

in the embodiment, the thermal air bag 11 can realize the whole process of lifting, lowering and winding of the airship 1 through the three working states of the double-circulation thermal air blower 3, so that the efficiency of transmitting electromagnetic waves is obviously improved through effectively dragging an air carrier to do circular motion.

According to one embodiment of the present disclosure, the towing device 2 includes a telescopic base 21, a telescopic rod 22, a towing pipe 23, a connecting rod 24, a hinge seat 25 and a magnet 26, the telescopic base 21 is fixedly arranged on the hot air bag 11, the telescopic rod 22 is movably inserted into the telescopic base 21, the end of the telescopic rod 22 is hinged with one end of the connecting rod 24, the other end of the connecting rod 24 is hinged with the towing pipe 23, the towing pipe 23 is hinged on the hinge seat 25, thereby pulling the connecting rod 24 back and forth through the telescopic rod 22, thereby driving the towing pipe 23 to deflect by 90 degrees, the hinge seat 25 is fixedly arranged on the telescopic base 21, and the towing rope 15 is penetrated in the towing pipe 23. In the inflated state, the towing pipe 23 and the central support rod 145 are parallel, at this time, the central support rod 145 is in a vertical state on the base 54, the buoyancy of the thermal air bag 11 is increased, and the motor propeller 12 is turned on, so that the thermal air bag 11 is quickly and vertically lifted. In the internal circulation state, the dragging pipe 23 is perpendicular to the position of the central supporting rod 145, at the moment, the buoyancy of the thermal air bag 11 is inconvenient, the motor propeller 12 provides power to enable the thermal air bag 11 to circularly move, and finally in the exhaust state, the buoyancy of the thermal air bag 11 is reduced, the dragging pipe 23 is parallel to the position of the central supporting rod 145 again, the thermal air bag 11 can be pulled back to the base 54 again, and therefore the effect of automatically recovering the thermal air bag 11 can be achieved through the dragging device 2.

According to one embodiment of the present disclosure, the traction rope 15 includes a rope body 151 and an iron block 152, the rope body 151 is formed by weaving a nylon wire, a data wire and a power wire, the iron block 152 is fixedly sleeved on the rope body 151, the iron block 152 is magnetically connected with the magnet 26, and the iron block 152 is attracted with the magnet when the hot air bag 11 is lifted and dropped, thereby playing a role of fixing the rope body 151. The other end of the rope body 151 is connected with the winding and unwinding device 4, nylon wires in the rope body 151 play a role in improving tensile strength, and data wires and power wires are used for controlling and transmitting power, and the anti-interference effect is improved in a wired conduction mode.

According to one embodiment of the present disclosure, the wire takeup and pay-off device 4 includes a winding roller 41, a winding frame 42, a wire takeup motor 43 and a bearing 44, the other end of the rope 151 is connected to the winding roller 41, the winding roller 41 is used for drawing up the rope 151, the winding roller 41 is movably mounted on the winding frame 42, and the winding frame 42 and the bearing 44 are welded to each other, thereby enabling the winding frame 42 to rotate along with the thermal air bag 11, and avoiding the rope 151 from being adversely affected by torque. The winding frame 42 is provided with a winding motor 43, the winding motor 43 is in transmission connection with the winding roller 41, and the winding motor 43 drives the winding roller 41 to rotate, so that the purpose of the winding rope body 151 is achieved.

According to one embodiment of the invention, the foundation power supply storage device 5 comprises a protection plate 51, a magnetic strip 52, a paying-off groove 53, a base 54 and a solar panel 55, wherein the bearing 44 is sleeved in the paying-off groove 53, the paying-off groove 53 is arranged on the base 54, a storage battery is arranged in the base 54, and the solar panel 55 is arranged on the inner wall of the protection plate 51, so that the rope 151 can supply power to the double-circulation heat blower 3, the motor propeller 12, the electromagnetic wave generator 13 and other power utilization components. Four protection boards 51 are hinged to the periphery of the base 54, magnetic strips 52 are arranged at the edges of the protection boards 51, and the four protection boards 51 are combined to be square-pointed, so that rainwater or dew can be effectively prevented from entering the wire releasing groove 53 and the base 54, equipment can be conveniently exposed in the field for a long time, and maintenance cost is reduced.

The application process of the embodiment of the invention is as follows:

the technical scheme of the invention discloses an environment-friendly solar farmland yield increasing instrument, when in use, firstly, a storage battery provides power, and under the inflation state of a double-circulation hot air blower 3, hot air is filled into an airship 1, so that a hot air bag 11 is expanded, a folding framework 14 is unfolded, then four protection plates 51 are separated, a motor propeller 12 rotates, and the hot air bag 11 vertically floats upwards; then, when the thermal air bag 11 flies to the highest point, the towing pipe 23 swings by 90 degrees, the airship 1 moves outwards and is connected with the winding roller 41 through the rope 151, the double-circulation thermal blower 3 is in an internal circulation state, and the double-circulation thermal blower is pulled by the rope 151 to do circular motion around the base 54 and emits electromagnetic waves downwards; finally, the double circulation heat blower 3 is in the exhaust state, the drag pipe 23 is returned to the original position, the buoyancy of the hot air bag 11 is reduced, and the winding roller 41 withdraws the rope 151, so that the hot air bag 11 is returned to the base 54 again, and the protection plate 51 is incorporated.

While the invention has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the invention and are intended to be within the scope of the invention as claimed.

Claims

1. The utility model provides an environmental protection type solar energy farmland yield increasing appearance, its characterized in that includes airship (1), trailing device (2), dual cycle heat air-blower (3), receive and release line ware (4) and ground power supply storage device (5), install receive and release line ware (4) in ground power supply storage device (5), receive and release line ware (4) link to each other with airship (1), trailing device (2) are installed to airship (1) side, airship (1) link to each other with receive and release line ware (4) through trailing device (2), airship (1) tip is provided with dual cycle heat air-blower (3);

the airship (1) comprises a thermal air bag (11), a motor propeller (12), an electromagnetic wave generator (13), a folding skeleton (14) and a traction rope (15), wherein the winding and unwinding device (4) is connected with one end of the traction rope (15), the other end of the traction rope (15) is connected with the electromagnetic wave generator (13), the electromagnetic wave generator (13) is arranged in the middle of the folding skeleton (14), the motor propeller (12) is arranged at one end of the folding skeleton (14), a double-circulation thermal air blower (3) is arranged at the other end of the folding skeleton (14), the double-circulation thermal air blower (3) is communicated with the thermal air bag (11), and the thermal air bag (11) is fixedly wrapped on the folding skeleton (14);

the dragging device (2) comprises a telescopic base (21), a telescopic rod (22), a dragging pipe (23), a connecting rod (24), a hinging seat (25) and a magnet (26), wherein the telescopic base (21) is fixedly arranged on the hot air bag (11), the telescopic rod (22) is movably inserted into the telescopic base (21), the end part of the telescopic rod (22) is hinged with one end of the connecting rod (24), the other end of the connecting rod (24) is hinged with the dragging pipe (23), the dragging pipe (23) is hinged on the hinging seat (25), the hinging seat (25) is fixedly arranged on the telescopic base (21), and a dragging rope (15) is arranged in the dragging pipe (23) in a penetrating manner;

the traction rope (15) comprises a rope body (151) and an iron block (152), wherein the rope body (151) is formed by weaving a nylon wire, a data wire and a power wire, the iron block (152) is fixedly sleeved on the rope body (151), the iron block (152) is magnetically connected with a magnet (26), and the other end of the rope body (151) is connected with a winding and unwinding device (4);

the winding and unwinding device is characterized in that the winding and unwinding device (4) comprises a winding roller (41), a winding frame (42), a winding motor (43) and a bearing (44), the other end of the rope body (151) is connected with the winding roller (41), the winding roller (41) is movably mounted on the winding frame (42), the winding frame (42) is welded on the bearing (44), the winding motor (43) is mounted on the winding frame (42), and the winding motor (43) is in transmission connection with the winding roller (41).

2. The environment-friendly solar farmland yield-increasing instrument according to claim 1, wherein the folding framework (14) comprises supporting beams (141), supporting rods (142), hinge rings (143), springs (144) and central supporting rods (145), the electromagnetic wave generator (13) is fixedly sleeved on the central supporting rods (145), two ends of the central supporting rods (145) are hinged with a plurality of supporting beams (141), any one supporting beam (141) is hinged with one end of each supporting rod (142), the other end of each supporting rod (142) is hinged with the corresponding hinge ring (143), the number of the hinge rings (143) is two, two hinge rings (143) are sleeved at two ends of the central supporting rods (145) and are located at two ends of the electromagnetic wave generator (13), and any one hinge ring (143) is propped against the electromagnetic wave generator (13) through the springs sleeved on the central supporting rods (145).

3. An environment-friendly solar farmland yield-increasing instrument according to claim 2, characterized in that the double-circulation heat blower (3) comprises a sealing cover (31), an electric blower (32), a push-pull electromagnet (33), a double-circulation pipe (34) and an electric heater (35), the end part of the center support rod (145) is connected with the electric heater (35), the electric heater (35) is communicated with the hot air sac (11), the electric heater (35) is arranged at one end of the double-circulation pipe (34), the electric blower (32) is movably arranged at the other end of the double-circulation pipe (34), the electric blower (32) is fixedly arranged on the sealing cover (31), the sealing cover (31) is arranged at the end part of the push-pull electromagnet (33), and the push-pull electromagnet (33) is fixedly arranged on the electric heater (35).

4. An environmental protection type solar energy farmland yield increasing apparatus according to claim 3, characterized in that said double circulation pipe (34) comprises an outer ventilation pipe (341) and an inner ventilation pipe (342), said electric blower (32) is movably inserted at one end of the outer ventilation pipe (341), the other end of said outer ventilation pipe (341) is communicated with an electric heater (35), said electric heater (35) is communicated with one end of an inner ventilation pipe (342), and the other end of said inner ventilation pipe (342) is communicated with the middle part of said outer ventilation pipe (341).

5. The environment-friendly solar farmland yield-increasing instrument according to claim 4, wherein the foundation power supply storage device (5) comprises a protection plate (51), a magnetic strip (52), a paying-off groove (53), a base (54) and a solar panel (55), the bearing (44) is sleeved in the paying-off groove (53), the paying-off groove (53) is arranged on the base (54), four protection plates (51) are hinged around the base (54), the magnetic strip (52) is arranged at the edge of the protection plates (51), and the solar panel (55) is arranged on the inner wall of the protection plates (51).

6. An environmental protection type solar farm yield increasing instrument as claimed in claim 5, wherein four protection plates (51) are combined into a square tip shape.