CN210130082U - Solar agricultural machine - Google Patents

Abstract

A solar farm machine comprising a powered farm body, a plurality of electrical energy consumption units, and a solar canopy, wherein said electrical energy consumption units are operably mounted to said powered farm body, wherein said solar canopy comprises a canopy body and a solar energy unit, wherein said solar energy unit is disposed in said canopy body, wherein said canopy body is mounted to said powered farm body, wherein said solar energy unit is electrically connected to said electrical energy consumption units, wherein said solar energy unit converts solar energy to electrical energy when exposed to sunlight.

Description

Solar agricultural machine

Technical Field

The utility model relates to a novel energy agricultural machine field further relates to the solar energy agricultural machinery who utilizes solar energy power generation, wherein solar energy agricultural machinery includes that power agricultural machinery and solar energy are fluffy, wherein solar energy fluffy can be applied to power agricultural machinery such as but not limited to plant protection machine, transplanter and unmanned agricultural machinery etc..

Background

Since the 21 st century, science and technology have been rapidly developed, and in the field of agriculture, power agricultural machines such as plant protection machines, unmanned agricultural machines and rice transplanters gradually replace manpower works, and with the gradual improvement of power agricultural machines, the living efficiency of people is improved, and obvious gains are provided for reducing the loss of crops, saving energy and the like.

For example, plant protection machines in the market can be divided into two categories according to the energy division, one is a fuel plant protection machine, the other is an electric plant protection machine, wherein the fuel plant protection machine is provided with a fuel cylinder for providing a fuel generation place and generating energy, to drive the fuel plant protection machine to work normally, however, the fuel plant protection machine not only needs to convert the energy of the fuel into mechanical energy for the walking movement of the fuel plant protection machine, but also converts the energy of the fuel into electric energy through a built-in generator so as to ensure the normal operation of the power utilization units of the fuel plant protection machine, such as a signal lamp, a loudspeaker, an information transmission module and the like, since the electric energy is obtained by converting the fuel into mechanical energy through combustion and then converting the mechanical energy into electric energy, and the electric energy is provided for the electricity utilization unit, so that the conversion efficiency of the energy is low, and the energy is wasted to a great extent. In addition, the fuel plant protection machine is internally provided with a built-in storage battery, so that the problem of continuous power supply is solved, but the electric energy in the storage battery is converted by the combustion of the fuel and is only used for transfer, the energy conversion rate cannot be improved, and when the fuel of the fuel plant protection machine stops combusting, the electric energy stored in the storage battery is limited, so that the electric energy cannot be permanently supplied to the power utilization units, and further all the power utilization units of the fuel plant protection machine cannot continue to work. In addition, the fuel is non-renewable energy such as natural gas, petroleum and the like, and the combustion of the fuel can cause environmental pollution and troubles the life of people.

The electric plant protection machine is provided with a storage battery pack for storing a large amount of electric energy to be used for the normal operation of the electric plant protection machine, but the storage battery pack not only needs to provide kinetic energy for the walking and moving of the electric plant protection machine, but also needs to maintain electric energy required by the normal operation of power consumption units such as signal lamps, loudspeakers, information transmission modules and the like, so that the storage battery pack needs to bear normal energy required by all the work units, the storage battery pack needs to divide energy with different electric quantity sizes and transmit the energy to corresponding work units, and the electric energy of the storage battery pack is dispersed, namely, the storage battery pack needs to bear and allocate the loads of the work units with different electric quantity sizes, so that the loads of the storage battery pack are increased in a phase-changing manner, the energy consumption of the storage battery pack is increased, and the service life of the storage battery, and the electric quantity stored by the storage battery pack is certain, and when the storage battery pack is used, a charging point is needed for charging, so that the lasting working force of the electric plant protection machine cannot be prolonged.

In the present generation, the development and application of novel energy have become mature gradually, for example, the application of solar energy, solar cell panel can absorb solar energy, and turn into the electric energy with solar energy, with this power consumption demand that satisfies people, and solar energy belongs to renewable energy, pollution-free, need not the user and purchase, be one of sustainable development's important energy, but to the utilization of solar energy, must require sunshine, still need to guarantee simultaneously that the electric energy via solar energy conversion can satisfy user's operation requirement, consequently, how to rationally be applied to power agricultural machinery with novel energy, it is the problem that the energy crisis is urgently need to be solved to alleviate.

Disclosure of Invention

An object of the utility model is to provide a solar energy agricultural machinery, wherein solar energy agricultural machinery includes that a solar energy is fluffy and a power agricultural machinery, wherein solar energy is fluffy including a solar energy unit, wherein solar energy unit can turn into the electric energy with solar energy, in order to provide the electric energy extremely power agricultural machinery such as but not limited to plant protection machine, transplanter and unmanned agricultural machinery etc. in order to satisfy user's demand.

Another object of the utility model is to provide a solar energy agricultural machinery, wherein solar energy is fluffy can be the electric energy with solar energy conversion, and will the electric energy is applied to signal lamp, light, loudspeaker, power consumption units such as information transfer unit, with the confession the power consumption unit normally works.

Another object of the utility model is to provide a solar energy agricultural machinery, wherein solar energy is fluffy can be with solar energy conversion electric energy and general the electric energy storage to supply the user to use at any time, guarantee simultaneously the electric energy can be transmitted by the continuation, that is to say, the user can be with the electric energy storage by solar energy conversion daytime, and also can normal use under the no sunlight environment the power consumption unit.

Another object of the present invention is to provide a solar farm machine, wherein the power of the power farm machine can be provided by fuel or storage battery, and the power of the power farm machine can be provided by the solar tent, that is, the power of the power farm machine and the power of the power unit can be provided separately, so as to increase the utilization rate of energy, and reduce the load of the power farm machine, thereby increasing the service life.

Another object of the utility model is to provide a solar energy agricultural machinery compares in traditional power agricultural machinery, the utility model provides a solar energy is fluffy can utilize solar energy supply extremely power agricultural machinery, and then has prolonged operating time, that is to say, work as when the built-in energy of power agricultural machinery is not enough, power agricultural machinery still can utilize the solar energy supply to this increases lasting working force.

Another object of the utility model is to provide a solar energy agricultural machinery, wherein solar energy unit can be folded to improve energy conversion efficiency, be convenient for simultaneously accomodate, the maintenance, use etc.

Another object of the utility model is to provide a solar energy agricultural machinery, wherein solar energy is fluffy can be installed and be applied to current power agricultural machinery, and then increases application range.

Another object of the utility model is to provide a solar energy agricultural machinery, wherein power agricultural machinery combines together with the novel energy, can reduce the consumption of non-renewable energy, alleviates the energy crisis.

Another object of the present invention is to provide a solar farm machine, wherein the solar canopy has high practicability, simple manufacture and low cost.

According to an aspect of the utility model, the utility model discloses a solar energy agricultural machinery is further provided to utilize solar energy power generation, a serial communication port, include:

a power agricultural machine body;

a set of power-consuming units, wherein said power-consuming units are operably mounted to said powered agricultural machinery; and a solar canopy, wherein the solar canopy comprises a canopy body and a solar unit, wherein the solar unit is disposed on the canopy body, wherein the canopy body is mounted to the powered agricultural machine body, wherein the solar unit is electrically connected to the electricity consuming unit, wherein the solar unit converts solar energy into electrical energy when exposed to sunlight.

According to an embodiment of the present invention, the solar canopy further comprises a power pack, wherein the power pack is electrically connected to the solar unit and the electricity consuming unit.

According to an embodiment of the present invention, the solar unit comprises a set of solar panels, wherein the solar panels are operatively installed in the power farm body, wherein the solar panels are electrically connected in series in turn, wherein at least one of the solar panels is electrically connected to the power source.

According to an embodiment of the invention, the solar unit further comprises at least one connecting piece, wherein the connecting piece is pivoted adjacent between the solar panels, wherein the connecting piece is preferably a set of hinges, wherein the head end solar panel is detachably fixed in the power agricultural machine, wherein the tail end solar panel is slidably mounted in the power agricultural machine, wherein the tail end solar panel is folded or unfolded towards the direction of the solar unit to slide.

According to the utility model discloses an embodiment when the power agricultural machinery normally works, solar energy unit is type wave structure.

According to another aspect of the utility model, the utility model discloses it is fluffy to further provide a solar energy to turn into the electric energy with solar energy and be applied to a power agricultural machinery, wherein the power agricultural machinery includes a power agricultural machinery body and a set of power consumption unit, wherein the power consumption unit by install in with working in power agricultural machinery body, a serial communication port, include:

an canopy, wherein the canopy is mounted to the powered agricultural machinery; and

a solar unit, wherein the solar unit is electrically connected to the electricity consuming unit, wherein the solar unit is disposed on the tent body, wherein the solar unit converts solar energy into electrical energy when exposed to sunlight.

According to another aspect of the present invention, the present invention further provides a method for using a solar canopy in a power agricultural machine, comprising:

A. a solar unit is irradiated by sunlight, wherein the solar unit converts solar energy into electric energy; and

B. and transmitting the electric energy to a group of electric units of a power agricultural machine.

Wherein, the step B can be changed into: and B1, storing the electric energy in a power pack, and electrically connecting the power pack to the electric unit.

The method for installing a solar tent on a power agricultural machine comprises the following steps:

A. fixing a canopy body on a power agricultural machine body and covering the canopy body on a driving position of the power agricultural machine;

B. mounting a solar unit on top of the roof body; and

C. and the solar energy unit is electrically connected with a group of power utilization units of the power agricultural machine.

Wherein, the step C can be changed into: and C1, electrically connecting the solar unit to a power pack, and electrically connecting the power pack to the electricity utilization unit.

The method for installing a solar energy unit on a power agricultural machine with a canopy body comprises the following steps:

A. mounting a solar unit on the top of a canopy of a powered agricultural machine; and

B. and the solar energy unit is electrically connected with a group of power utilization units of the power agricultural machine.

Wherein, the step B can be changed into: and B1, electrically connecting the solar unit to a power pack, and electrically connecting the power pack to the electricity utilization unit.

Drawings

Fig. 1 is a schematic plan view of a solar farm machine according to a preferred embodiment of the present invention.

Fig. 2 is a schematic plan view of a solar farm machine according to a preferred embodiment of the present invention.

Fig. 3A is a partial schematic view of a solar farm machine according to a preferred embodiment of the present invention.

Fig. 3B is a partial schematic view of a solar farm machine according to a preferred embodiment of the present invention.

Fig. 4 is a schematic block diagram of a solar farm machine according to a preferred embodiment of the present invention.

Fig. 5 is a partial schematic view of a solar farm machine according to a preferred embodiment of the present invention.

Fig. 6A is a schematic plan view of a solar agricultural machine according to a first modified embodiment of the present invention.

Fig. 6B is a schematic plan view of a solar agricultural machine according to a first modified embodiment of the present invention.

Fig. 7 is a schematic block diagram of a solar farm machine according to a first variant embodiment of the present invention.

Fig. 8 is a block flow diagram of a solar farm machine according to a preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

According to the utility model discloses a conceive, the utility model provides an utilize solar energy power generation's solar energy agricultural machinery, wherein solar energy agricultural machinery includes a power agricultural machinery and a solar energy is fluffy, wherein solar energy is fluffy can be with solar energy transformation electric energy under the shining of sunshine, and will the electric energy transmission extremely power agricultural machinery, for the power agricultural machinery operation compares in traditional fuel power agricultural machinery or electric power agricultural machinery, the utility model provides a power agricultural machinery can utilize solar energy in order to provide the energy required effectively, and then the energy saving, wherein power agricultural machinery such as but not limited to plant protection machine, transplanter or unmanned agricultural machinery etc..

It should be noted that, because the planting or maturing time of crops such as wheat, rice and the like is in spring summer or autumn summer of each year, the sunlight is still sufficient at this moment, and the sunlight temperature can reach more than 30 ℃ particularly in the south at noon, and the planting scenes of the crops are all outdoor planting, and in order to ensure the good growth of the crops, the open space is generally selected, the field with sufficient sunlight is the first choice of the grower, and the weather of the crops such as fertilization, planting or harvesting is mostly clear days, so that the pesticides are prevented from being washed by rainwater or affecting the work of the grower, and the like. That is to say, under the normal condition, the working scene of power agricultural machinery has sufficient sunshine mostly, and then has guaranteed that solar energy is fluffy can receive sufficient sunshine when normal work, and then is a large amount of electric energy with solar energy to provide the electric energy to power agricultural machinery, in order to satisfy power agricultural machinery's normal work needs.

The solar farm machine according to the preferred embodiment of the present invention is shown in fig. 1, 2, 4 and 8, wherein the solar farm machine comprises a power farm machine 10 and a solar canopy 20, wherein the solar canopy 20 is mounted to the power farm machine 10. The power agricultural machine comprises a power agricultural machine body 11 and a group of power utilization units 12, in the embodiment, the power agricultural machine 10 is preferably an electric plant protection machine, wherein the power agricultural machine body 11 is provided with a driving seat 111, the driving seat 111 is used for a driver to drive the power agricultural machine 10, and the power utilization units 12 are operably installed on the power agricultural machine body 11. Such as, but not limited to, signal lights, speakers, and information transfer units, etc. the power consuming unit 12. The solar canopy 20 is mounted on the power agricultural machine body 11 and openably covers the driving seat 111, so as to cover the driving seat 111 for the driver, thereby protecting the driver from normally driving the power agricultural machine 10. The solar canopy 20 is electrically connected to the electricity consuming unit 12, wherein the solar canopy 20 can convert solar energy into electric energy under the irradiation of sunlight and transmit the electric energy to the electricity consuming unit 12, so as to provide electric energy for the electricity consuming unit 12, thereby ensuring that the electricity consuming unit 12 can work normally. That is, the solar canopy 20 converts solar energy into electric energy and applies the electric energy to the power agricultural machinery 10, so that the consumption of non-renewable energy can be reduced, and the energy crisis can be alleviated.

The solar canopy 20 includes a canopy body 21 and a solar unit 22, wherein the solar unit 22 is disposed on the canopy body 21, wherein the canopy body 21 is mounted on the power farm body 11, wherein the solar unit 22 is electrically connected to the electricity utilization unit 12, wherein the solar unit 22 can convert solar energy into electric energy under the irradiation of sunlight, so as to provide the electricity utilization unit 12 with electric energy, thereby ensuring that the electricity utilization unit 12 can normally operate.

In the present embodiment, the canopy 21 is covered on the driving seat 111, wherein the solar unit 22 is disposed on the top of the canopy 21. Preferably, the horizontal area of the solar unit 22 is slightly larger than that of the driving seat 111, so as to increase the area irradiated by sunlight without affecting the normal operation of the power agricultural machine, further convert more solar energy, and simultaneously block the sunlight from irradiating the body of the driver. That is, when the driver drives the power agricultural machinery to work in the field for a long time, the solar unit 22 can be directly irradiated by sunlight, so that the sunlight is absorbed by the solar unit 22, and the driving position is just positioned in a shadow area of the solar unit 22 due to sunlight shielding, so that the irradiation of the sunlight on the driver at the driving position 111 in the shadow area is reduced, the burning feeling of the driver caused by the irradiation of the sunlight for a long time is reduced, and the safety of the driver is protected.

The solar canopy 20 further includes a power pack 23, wherein the power pack 23 is electrically connected to the solar unit 22 and the power consuming unit 12. That is, the solar unit 22 can store the electric energy obtained by converting the solar energy in the power pack 23, wherein the power pack 23 is electrically connected to the electricity utilization unit 12, so that the electricity utilization unit 12 is stably and continuously supplied with the electric energy. In other words, since the intensity of the sunlight changes in real time with time, weather, etc., the efficiency of the solar unit 22 for converting the solar energy is also suddenly high and suddenly low, and thus stable electric energy cannot be obtained. Therefore, the solar unit 22 stores the electric energy in the power pack 23, and then distributes the stable electric energy to each of the electric power consuming units 12 through the power pack 23 so that the electric power consuming units 12 are stably and continuously supplied with the electric power, thereby ensuring the stability of the electric power consuming units 12.

In this embodiment, the power pack 23 is detachably mounted to the agricultural power machine body 11, wherein the power pack 23 is hidden in the agricultural power machine body 11 to prevent electric leakage and the like when the power pack 23 is exposed to rain, and when the agricultural power machine 10 is normally operated, the power pack 23 cannot move relatively to each other to prevent interruption of electric power transmission due to shaking of the power pack 23.

It is worth mentioning that the power pack 23 is electrically connected to the power consuming unit 12. That is, the power supply set 23 supplies power to each of the power consumption units 12, so as to ensure independent power supply, that is, power supply lines between any two power consumption units 12 do not interfere with each other.

It is to be noted that the amount of electricity stored in the power supply pack 23 can be changed by changing the number of the power supplies, the capacity of the stored electricity, and the like. That is, the power storage amount of the power pack 23 can be increased appropriately without affecting the normal configuration of the agricultural power machine 10, and further, as much electric energy obtained by converting the solar energy unit 22 into solar energy as possible can be stored in the power pack 23, so that the power pack 23 can store a large amount of electric energy to ensure the power consumption of the power consumption unit 12. In addition, when in the no-sunlight state, the power stored in the power pack 23 can still ensure the normal use of the power unit 12 for a period of time, so as to prevent the occurrence of sudden power failure.

It should be noted that the power pack 23 has a charging connector 231 and at least one power supply interface 232, wherein the charging connector 231 is inserted into a patch board, so that the power pack 23 can be directly charged. That is, in the case where the solar unit 22 cannot obtain solar energy, the user can detach the power pack 23 from the power agricultural machine body 11 and access a plug board to charge the power pack 23, and when the power pack 23 is fully charged, the power pack 23 can be re-attached to the power agricultural machine body 11 to supply power to the electricity using unit 12. The power supply interface 232 is used for being connected with external electrical equipment such as a mobile phone and a sound box and the power utilization unit 12, so that the power supply pack 23 can supply power for the power utilization unit 12 and can charge the external electrical equipment, and the requirements of users are met.

In general, the existing power agricultural machine 10 has an internal storage battery 13, wherein the internal storage battery 13 is installed inside the power agricultural machine body 11 and is electrically connected to the power unit 12, so that the solar canopy 20 can be applied to the existing power agricultural machine 10. Preferably, the power pack 23 is electrically connected to the internal storage battery 13 to form a power supply unit, that is, electric energy obtained by converting solar energy is first stored in the power pack 23, and then the electric energy is transmitted to the internal storage battery 13 because the power pack 23 is electrically connected to the internal storage battery 13, so that the electric energy is normally used by the electricity consumption unit 12. In other words, with the existing power agricultural machine 10, the electric power unit 12 is still electrically connected to the internal storage battery 13, and the solar canopy 20 can be applied to the power agricultural machine 10 by only electrically connecting the power pack 23 to the internal storage battery 13, thereby ensuring that the solar canopy 20 can be easily installed and applied to the power agricultural machine 10 without changing the structure of the power agricultural machine 10, so that the electric power unit 12 of the power agricultural machine 10 can use the converted electric power from solar energy.

It should be noted that the power of the power agricultural machine 10 can be provided by fuel or battery pack, and the electric energy of the power unit 12 of the power agricultural machine 10 can be provided by converting the solar energy into the solar energy through the solar canopy 20. That is, the power energy of the power agricultural machine 10 and the electric energy of the electric unit 12 are provided separately, so as to increase the utilization rate of energy, and simultaneously reduce the load of the power agricultural machine, so as to increase the service life. In particular, when the built-in energy of the power agricultural machine is insufficient, the power agricultural machine can still be powered by solar energy, so that the lasting working force is increased.

In this embodiment, the canopy body 21 includes a supporting device 211, a glass window 212 and a door body 213, wherein a bottom portion 2121 of the glass window 212 is fixed to a front side of the driving seat 111 of the power agricultural machine body 11, wherein the front side is defined as a direction in which the power agricultural machine 10 advances, wherein a fixed end 2111 of the supporting device 211 is fixed to a rear side of the driving seat 111 of the power agricultural machine body 11, and wherein two extending ends 2112 of the supporting device 211 are preferably integrally extended from the fixed end 2111 and are respectively fixed to two sides of a top portion 2122 of the glass window 212. Preferably, the supporting device 211 has an L-like structure, wherein the door bodies 213 are installed at both sides of the driving seat 111. Door body 213 includes a left side door and a right side door, preferably, a side of left side door is rotatably pivoted in the side edge of glass window 212, wherein the left side is rotatably set up to open or close between the driver's seat 111 to supply the driver to open or close the left side door, the right side door is nonrotatably fixed in the right side of driver's seat 111, so that the driver can only follow the left side of driver's seat 111 gets into or leaves driver's seat 111. It should be noted that the fixing manner of the left door and the right door is not the same, and the left door and the right door can be both fixed rotatably, and the fixing manner can be set according to the habit of people.

Preferably, the canopy body 21 has a similar cubic structure to ensure that a driver can safely ride in the driving seat 111 covered by the canopy body 21, and the window glass 212 has a wiper for cleaning the window glass 212.

The solar unit 22 is fixed to the support device 211, wherein the solar unit 22 has a power transmission interface 221, wherein the power transmission interface 221 is connected to a wire, and wherein the other end of the wire is electrically connected to the power pack 23. Preferably, the wire is fixed to the supporting device 211 to restrict the movement of the wire.

As shown in fig. 3A and 3B, in the present embodiment, the solar unit 22 includes a set of solar panels 222, wherein the solar panels 222 are operatively mounted to the canopy 21, wherein the solar panels 222 are in turn electrically connected in series, wherein at least one of the solar panels 222 is electrically connected to the power pack 23, wherein the solar panels 222 are supported on top of the support device 211. Preferably, the solar panel 222 is in a square-like structure, wherein the solar panel 222 is covered on the top side of the driving seat 111 to receive the sunlight.

It is worth mentioning that the horizontal area of the solar panel 222 is larger than the top side horizontal area of the driver's seat 111 to receive more area of sunlight.

It should be noted that the rear side of the canopy body 21 is slightly higher than the front side of the canopy body 21 so that the solar panel 222 is supported obliquely on the top side of the canopy body 21 to better receive the sunlight, but it should be noted that the height difference cannot be too high so that the sunlight can still irradiate the solar unit 22 when the solar farm works against the sunlight.

As shown in fig. 5, the canopy 21 further includes a reinforcing member 214, wherein the fixing member 214 is disposed on the supporting device 211, and wherein the solar panel 222 is supported on the reinforcing member 214 to prevent the solar panel 222 from collapsing due to gravity. That is, when the power agricultural machine 10 moves on an uneven ground, the solar panel 222 is not damaged by jolts, so as to ensure stable transmission of electric power.

The canopy 21 further includes a buffer pad 215, wherein the buffer pad 215 is disposed between the support device 211 and the solar panel 222 to buffer the acting force of the solar panel 222 and the stiffener 214 to prevent the solar panel 222 from being damaged. Preferably, the cushion is implemented as a flexible material.

The solar unit 22 further comprises at least one connecting member 223, wherein the connecting member 223 is pivotally connected between adjacent solar panels 222, wherein the connecting member 223 is preferably a set of hinges to allow the solar panels 222 to be pivoted to different angles relative to each other while facilitating folding of the solar unit 22, wherein the first solar panel 222 is detachably secured to the canopy 21. The solar panels 222 at the rear end are slidably disposed between a folded state, in which the solar units 22 are folded, i.e., the solar panels 222 are folded together, and an unfolded state, for convenient storage, etc. by a user. In the unfolded state, the solar cells 22 are unfolded, i.e., the solar panels 222 are sequentially arranged to receive the sunlight. Accordingly, when the solar cell 22 is unfolded to the maximum area state, the received sunlight is the most, and the efficiency value of converting solar energy into electric energy is the highest.

It should be noted that the solar panel 222 at the rear end is movably fixed to the canopy body 21 to facilitate the user to adjust the position of the solar panel, and preferably, the solar panel 222 at the rear end is fastened to the canopy body 21.

In this embodiment, when the solar unit 22 is unfolded to the maximum area, the solar unit is in a wave-like structure, that is, the solar panels 222 are arranged in a wave shape, so as to ensure that the efficiency of converting the solar energy into the electric energy is the highest, and increase the electric energy obtained by converting the solar energy per unit time. Preferably, the solar cells 22 extend in a wave-like manner in the front-rear direction. Note that the extending direction of the solar unit 22 is not limited in this embodiment, and may be sufficient to receive sunlight irradiation of the maximum area.

It is noted that the solar canopy 20 further comprises an interactive unit 24 and a control unit 25, wherein the interactive unit 24 is communicatively connected to the solar unit 22, wherein the interactive unit 24 is adapted to receive operation-related information of the solar unit 22 such as, but not limited to, an absorption solar index, a conversion efficiency value, an actual conversion value, etc. The interactive unit 24 is capable of transmitting the work related information to the user, wherein the controller 25 is installed on the tent body 21 in a manner of controlling the solar unit 22, wherein the control unit 25 is used for controlling the folding degree, the tilting angle, the working time, etc. of the solar unit 22 to ensure the highest conversion efficiency value of the solar unit 22 to meet the user's requirement. Accordingly, a user may control the control unit 25 using a wireless controller, a bluetooth controller, or the like to remotely control the operation of the solar unit 22.

The application method of the solar canopy 20 to the power agricultural machine 10 is as follows:

A. subjecting the solar unit 22 to sunlight, wherein the solar unit 22 converts solar energy into electrical energy; and

B. the electric energy is transmitted to the electric power unit 12 of the power agricultural machine 10.

Wherein, the step B can be changed into: b1, storing the electric energy in the power pack 23, and electrically connecting the power pack 23 to the electricity consumption unit 12.

The method for installing the solar canopy 20 on the power agricultural machine 10 is as follows:

A. fixing the tent body 21 to the power agricultural machine body 11 and covering the driving position 111;

B. mounting the solar unit 22 on top of the canopy body 21; and

C. electrically connecting the solar unit 22 to the power utilization unit 12 of the power agricultural machine 10.

Wherein, the step C can be changed into: c1, electrically connecting the solar unit 22 to the power pack 23, and electrically connecting the power pack 23 to the electricity consuming unit 12.

The method for installing the solar energy unit 22 on the power agricultural machine 10 with the tent body 21 is as follows:

A. mounting the solar unit 22 on top of the canopy 21 of the powered agricultural machine 10; and

B. electrically connecting the solar unit 22 to the power utilization unit 12 of the power agricultural machine 10.

Wherein, the step B can be changed into: b1, electrically connecting the solar unit 22 to the power pack 23, and electrically connecting the power pack 23 to the electricity consuming unit 12.

It should be noted that the solar canopy 20 can be installed and applied to existing canopy-less powered agricultural machinery 10, thereby increasing the range of use. Simultaneously, to current fluffy power agricultural machinery 10 of having, in this embodiment solar energy is fluffy 20 can do suitable change, in order to install in power agricultural machinery 10, in order to guarantee solar energy unit 22 can be applied to power agricultural machinery 10 can, just power agricultural machinery combines together with the novel energy, can reduce the consumption of non-renewable energy, alleviates the energy crisis, wherein solar energy is fluffy the practicality height, and it is simple to make, with low costs.

As shown in fig. 6A, 6B and 7, the solar agricultural machine of the first modified embodiment of the present invention includes a power agricultural machine 10A and a solar canopy 20A, and the solar agricultural machine of this modified embodiment is different from the present preferred embodiment in that the solar canopy 20A includes a canopy body 21A and a solar unit 22A, wherein the canopy body 21A includes a supporting device 211A, a glass window 212A and a door body 213A, wherein the canopy body 21A is mounted to the power agricultural machine 10A, wherein the solar unit 22A is disposed on the top of the canopy body 21A, wherein the solar unit 22A is electrically connected to an electric unit 12A of the power agricultural machine 10A, wherein the glass window 212A is mounted to the power agricultural machine 10A, wherein the door body 213A is pivotally mounted to the side of the glass window 212A, wherein the supporting device 211A integrally extends from the top of the glass window 212A to the power agricultural machine 10A to surround the driving seat of the power agricultural machine 10A.

The supporting device 211A includes a supporting member 2113A and a telescopic member 2114A, wherein the fixed end of the supporting member 2113A is pivotally fixed on the top of the glass window 212A, wherein the solar cell 22A is supported by the supporting member 2113A, wherein the other free end of the supporting member 2113A is connected to the telescopic member 2114A, wherein the telescopic member 2114A is fixed on the power agricultural machine 10A, wherein the telescopic member 2114A can be extended and retracted in the up-down direction, along with the extension and retraction of the telescopic member 2114A, the free end of the supporting member 2113A also rises and falls up and down, because the fixed end of the supporting member is fixed on the glass window 212A, the supporting member 2113A makes a fan-shaped movement with the top side of the glass window 212A as an axis, and the solar cell 22A is tilted to a different angle β to better receive the irradiation of sunlight.

Preferably, the expansion/contraction member 2114A is implemented as an electric expansion/contraction device, i.e., the expansion/contraction of the expansion/contraction member 2114A is electrically controlled by the user.

In this embodiment, the supporting member 2113A has a sliding slot 21131A, wherein the telescopic member 2114A is slidably disposed in the sliding slot 21131A, wherein the sliding slot 21131A extends in the front-back direction, so that the supporting member 2113A is tilted forward or backward, thereby adjusting the solar unit 22A to tilt forward or backward.

It should be noted that the extension length of the sliding slot 21131A can be changed, and thus the telescopic length of the telescopic member 2114A is changed, so that the maximum inclination angle of the supporting member 2113A is changed, and preferably, the maximum inclination angle of the supporting member 2113A is implemented to be 60 °.

In the present embodiment, the inclination direction of the solar unit 22A is implemented as a front-back direction, but it should be noted that the inclination direction of the solar unit 22A may be adjusted appropriately, that is, the inclination direction may be changed to a left-right direction or other directions, and it is not required herein that the solar unit 22A only receives more solar energy.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (11)

1. A solar agricultural machine, comprising:

a power agricultural machine body;

a set of power-consuming units, wherein said power-consuming units are operably mounted to said powered agricultural machinery; and

a solar canopy, wherein the solar canopy comprises a canopy body and a solar unit, wherein the solar unit is disposed on the canopy body, wherein the canopy body is mounted to the powered agricultural machine body, wherein the solar unit is electrically connected to the electricity consuming unit, wherein the solar unit converts solar energy into electrical energy when exposed to sunlight.

2. The solar farm machine according to claim 1, wherein the solar canopy further comprises a power pack, wherein the power pack is electrically connected to the solar unit and the electricity consuming unit.

3. The solar agricultural machine of claim 2, wherein the solar unit comprises a set of solar panels and a set of connecting members, wherein the solar panels are electrically connected in series in sequence, wherein the connecting members are connected between adjacent solar panels, wherein at least one of the solar panels is electrically connected to the power pack.

4. The solar agricultural machine according to claim 1, wherein the solar unit comprises a set of solar panels and a set of connecting members, wherein the solar panels are electrically connected in series in turn, wherein the connecting members are connected between adjacent solar panels, wherein at least one of the solar panels is electrically connected to the electricity using unit.

5. The solar agricultural machine of claim 3, wherein the connecting members are pivotally connected between adjacent solar panels, wherein a head end solar panel is secured to the canopy body, and wherein a tail end solar panel is movably disposed between a collapsed condition and an expanded condition.

6. The solar agricultural machine of claim 5, wherein the solar panel is supported on top of the roof, wherein the solar panel is electrically connected in a wave-like manner.

7. The solar agricultural machine according to claim 1 or 4, wherein the power agricultural machine has a built-in storage battery, wherein the built-in storage battery is electrically connected to the electricity using unit, wherein the solar unit is electrically connected to the built-in storage battery.

8. The solar farm machine according to claim 2, 3, 5 or 6, wherein the powered farm machine has a built-in battery, wherein the built-in battery is electrically connected to the power-consuming unit, wherein the power pack is electrically connected to the built-in battery.

9. The solar farm machine according to claim 8, wherein the canopy body comprises a support device, a glass window, and a door body, wherein a bottom of the glass window is fixed to a front side of a driving seat of the power farm machine body, wherein a fixed end of the support device is fixed to a rear side of the driving seat of the power farm machine, wherein an extending end of the support device extending from the fixed end is fixed to a top of the glass window, wherein the door body is installed at both sides of the driving seat, wherein the door body is rotatably pivoted to side edges of the glass window, wherein the solar unit is supported to the support device, wherein the support device comprises a support member and a telescopic member, wherein the support member is pivotably fixed to the top of the glass window, wherein the telescopic member is fixed to the power farm machine body, wherein the support member has a sliding groove, wherein the telescopic member is slidably disposed in the sliding groove, wherein the solar panel is supported by the support member, and wherein the support member is moved in a fan-shaped manner along the axial direction when the telescopic member is moved along the sliding groove in a telescopic manner.

10. The solar agricultural machine of claim 8, wherein the solar canopy further comprises an interaction unit and a control unit, wherein the interaction unit is communicatively connected to the solar unit, wherein the control unit is mounted to the canopy body in a manner that controls the solar unit.

11. The solar agricultural machine of claim 10, wherein the control unit is communicatively connected to a wireless controller.

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