BE1029237B1 - An Energy Storage Device for the Long Duration Fixed-Wing Solar Electric Propulsion Aircraft - Google Patents

Abstract

The present invention publishes an energy storage device for the long-lasting fixed-wing solar electric propulsion aircraft, including a downhole battery panel, a battery box is installed on one end of the downhole battery panel subscribed, from the installation setting hole are open at the four corners of the bottom battery panel, an installation block is installed inside the installation setting hole, an installation through hole is open on the subscribed installation block, threaded cylinders are fixed to both sides of one end of the installation block symmetrically, a set screw is connected inside the threaded cylinders a rotating column is connected to one end of the subscribed adjusting screw; the present invention realizes the adjustment of the position of the installation holes by the designed installation block, the installation adjustment hole, the adjustment screw and the threaded cylinders. The threaded cylinders are fixed on the installation block, the installation block is placed in the installation adjustment hole, through the rotation of the adjustment screw, the screw and the threaded cylinders are adjusted for screwing the thread, and the installation block is driven to be moved in the installation adjustment hole, it effectively avoids the installation difficulty increase caused by the processing gap.

Description

An Energy Storage Device for the Long Duration Fixed-Wing Solar Electric Propulsion Aircraft

Technical area

The present invention belongs to the technical field of solar aircraft energy storage, which specifically relates to an energy storage device for the long-range fixed-wing solar electric powered aircraft.

background technology

The solar electric propulsion aircraft adopts the installatton of the solar panel on the surface of the wings, so that the solar energy is transformed into electric energy for the flight propulsion of the aircraft, and the long-time operation of the aircraft. aircraft will be guaranteed.

When powered by solar energy, the accumulator is used for the storage of electrical energy produced by solar energy, which is then supplied to the aircraft to power its flight.

The energy storage accumulators for the current solar electric propulsion aircraft are installed at the bottom inside the aircraft, which are respectively connected to the solar panel and the aircraft system to ensure that the electric energy produced by solar energy can enter the battery for energy storage. It is then transmitted to the aircraft for its flight. When installing the current energy storage accumulators, the screw that goes through the installation hole is connected and fixed to the mounting groove inside the battery box at the bottom of the aircraft. However, during the actual installation, the processing deviation of the mounting groove easily leads to the drift, at this time the installation holes on the battery can not be aligned and adjusted, it increases the difficulty of installation. Therefore, we propose an energy storage device for the aircraft — long-lasting fixed-wing solar electric propulsion.

The object of the present invention is to provide an energy storage device for the long-lasting fixed-wing solar electric propulsion aircraft with the aim of solving the problem that the mounting groove in the battery tray proposed in the bottom technology is easy suffered from the processing deviation which causes the energy storage battery installation holes cannot be aligned and the installation difficulty is increased.

To achieve the above object, the present invention provides the following technical solution: an energy storage device for the long-lasting fixed-wing solar electric propulsion aircraft, including a bottom battery panel, a battery box is installed on one end of the bottom battery panel, which is characterized by an adjustment hole

? BE2022/5596 installation are open at the four corners of the subscribed bottom battery panel, an installation block is installed inside the subscribed installation adjustment hole, an installation pass-through hole is opened on the subscribed installation block, threaded cylinders are attached to both sides of one end of the installation block, a set screw is connected inside the threaded cylinders by the thread, a rotating column is connected to one end of the subscribed adjustment screw, a second support plate is installed at the outer wall of the subscribed rotating column, a first support plate is installed at the wall of another end of the subscribed adjustment screw, the first support plate and the second subscribed support plate are fixed on the bottom battery panel, a rotating rod is connected on the first subscribed support plate rotatably, a main gear is connected to the outer wall of the subscribed rotating rod, gears secondary gears are connected to both sides of the main gear subscribed by the mesh, the secondary gears subscribed are fixed to the end surface of the adjusting screw.

Preferably, an operation box is installed at one end of the subscribed battery case, a pump and a cooling tank are installed inside the subscribed operation box, several thermal sensors are installed at the side wall of the battery box, a U-shaped cooling tube is installed inside the subscribed battery box, a control module is installed on the operation box, a data analysis module is connected to the Inside the electrically subscribed control module, the subscribed control module and pump are electrically connected.

Preferably, a wireless receiving module is connected to the electrically subscribed control module, a wireless transmitting module is connected to the electrically subscribed thermal sensors, the wireless transmitting module and the wireless receiving module wire are connected by the wireless network.

Preferably, an auxiliary power supply module is installed inside the subscribed operation box, the subscribed auxiliary power supply module is connected to an inverter electrically, the output ends of the subscribed inverter are respectively electrically connected to the input ends of the thermal sensors, the pump and the control module.

Preferably, the outlet end of the subscribed pump is connected to the end of the cooling tank by the pipe, the two ends of the U-shaped cooling tube are respectively connected to the inlet end of the cooling tank and at the outlet end of the pump.

Preferably, a side guide groove is opened at the side wall of the subscribed installation adjustment hole, a guide block is installed inside the groove of

) BE2022/5596 subscribed side guide, the subscribed guide block is attached to the side wall of the installation block.

Preferably, the cross section of the subscribed installation block is T-shaped, the section of the subscribed rotating column is H-shaped.

Preferably, reinforcing ribs are attached to the side wall of the first support plate and the second underwritten support plate, the section of the underwritten reinforcing ribs are triangular in shape.

The beneficial effects of the present invention compared with the current technology are: (1) The position adjustment of the installation holes is realized by the installation block, the installation adjustment hole, the adjustment screw and the designed threaded cylinders. The threaded cylinders are fixed on the installation block, the installation block is placed in the installation adjustment hole, through the rotation of the ruler screw, the screw and the threaded cylinders are adjusted for the face of the thread, and the installation block is driven to be moved in the installation adjustment hole, it effectively avoids the installation difficulty increase caused by the processing gap. The rotating installation of the adjusting screw on the support plate is carried out by the rotating column designed to prevent its displacement. The drive of the synchronized rotation of the two set screws and realized by the main gear and the secondary gears designed, and the synchronized mesh rotation of the main gear and the secondary gears at both sides is realized by the rotation of the main gear so that the adjustment in the present invention is more economical and convenient. The designed guide block and side guide groove assist the adjustment and guidance of the installation block in the installation adjustment hole to prevent it from tilting. (2) Thermal sensors monitor the temperature of the battery bank in the battery case in real time by the pump, cooling tank, U-shaped cooling tube and thermal sensors. When its temperature is too high, they send data to the data analysis module, and the data analysis module give the order to the pump by the control module, the pump works and transmitted the coolant into the cooling tank to the U-shaped cooling tube, which flows into the U-shaped cooling tube to quickly reduce the temperature of the accumulator group located on the U-shaped cooling tube and avoid the damage caused by the temperature too high. At the same time, the pump responds to it with the temperature degree monitored by the thermal sensors to reduce energy consumption effectively. The designed wireless transmitting module and wireless receiving module are connected by the wireless network so that the data detected by the thermal sensors will be sent to the data analysis module for analysis immediately. This reduces the

* BE2022/5596 quantity of tidy cables and avoids safety problems caused by too many circuits. Auxiliary power supply is realized by the thermal sensors, pump and control module to prevent the machine cannot work normally when the power supply is cut off.

Trick Instructions

Figure 1 is the structural diagram of the present invention;

Figure 2 is the enlargement diagram of area λ in Figure 1 of the present invention;

Figure 3 is the rear view of the present invention;

Figure 4 is the enlarged diagram of area B in Figure 1 of the present invention;

Figure 5 is the circuit diagram of the thermal sensors, pump, U-shaped cooling tube and battery box of the present invention;

Figure 6 is the block diagram of operation of the thermal sensors and the pump of the present invention.

In the figures: 1. Battery bottom plate; 2. Thermal sensors; 3. Operation box; 4.

control module; 5. Installation adjustment hole; 6. Battery case; 7. Lateral guide groove; 8. Installation block; 9. Guide block; 10. Adjustment screw; 11. Threaded cylinders;, 12. Main gear; 13. Rotating rod; 14. Secondary gears; 15. First support plate; 16. Rotating column; 17. Second support plate; 18. U-shaped cooling tube; 19. Pump; 20. Cooling tank.

Specific means of realization

A clear and complete description of the technical solution in the exemplary embodiment of the present invention will be made below by combining the figures in the exemplary embodiment of the invention, obviously, the exemplary embodiment described does not is only part of the working examples, and is not all working examples. Based on the working example in the present invention, all other working examples obtained by the ordinary technical person in this field without doing creative work come within the scope of the protection of the present invention.

Example of realization 1

Please see Fig. 1 to Fig. 4, the present invention provides a technical solution: an energy storage device for the long-lasting fixed-wing solar electric propulsion aircraft, including a bottom battery panel 1, a battery box is installed on one end of the bottom battery panel 1, which is characterized in that an installation adjustment hole 5 are opened at four corners of the subscribed bottom battery panel, an installation block 8 is installed inside the installation adjustment hole 5, through holes

> Installation block BE2022/5596 are opened on the installation block 8, threaded cylinders 11 are fixed to both sides of one end of the installation block 8, a set screw 10 is connected inside the cylinders threaded 11 by the thread, the adjustment of the position of the installation holes is carried out by the installation block 8, the installation adjustment hole 5, the adjustment screw 10 and the threaded cylinders 11 designed. The threaded cylinders 11 are fixed on the installation block 8, the installation block 8 is placed in the installation adjustment hole 5, through the rotation of the adjustment screw 10, the screw 10 is adjusted and the threaded cylinders 11 for thread screwing, and the installation block 8 is driven to be moved in the installation adjustment hole 5, it effectively avoids the installation difficulty increase caused by the processing deviation. A rotating column 16 is connected to one end of the adjusting screw 10, the rotating installation of the adjusting screw 10 to the support plate is achieved by the rotation of the adjusting screw 10 to prevent its displacement. A second support plate 17 is installed at the outer wall of the rotating column 16, a first support plate 15 is installed at the wall of another end of the adjustment screw 10, the first support plate 15 and the second supporting plate 17 are fixed on the bottom battery panel 1, a rotating rod 13 is connected on the first supporting plate 15 rotatably, a main gear 12 is connected to the outer wall of the rotating rod 13, gears secondary gears 14 are connected to both sides of the main gear 12 by meshing, driving the synchronized rotation of the two adjusting screws 10 and carried out by the main gear 12 and the secondary gears 14 designed, and the rotation of The synchronized meshing of the main gear 12 and the sub gears 14 at both sides is realized by the rotation of the main gear 12 to make the adjustment in the present invention more economical and convenient. The designed guide block and side guide groove assist the adjustment and guidance of the installation block in the installation adjustment hole to prevent it from tilting. The secondary gears 14 are attached to the end surface of the adjustment screw 10, a side guide groove 7 is opened at the side wall of the installation adjustment hole 5, a guide block 9 is installed at the Inside the side guide groove 7, the guide block 9 and the side guide groove 7 designed assist the adjustment and guidance of the installation block 8 in the installation adjustment hole 5 to prevent it from tilting. The guide block 9 is fixed to the side wall of the installation block 8, the section of the installation block 8 is T-shaped, the section of the rotating column 16 is H-shaped, reinforcing ribs are fixed to the side wall of the first support plate 15 and the second support plate 17, the section of the reinforcing ribs is triangular in shape.

Example of realization 2

Please see Figure 1 to Figure 6, the present invention provides a technical solution:

© BE2022/5596 an energy storage device for the long-range fixed-wing solar electric propulsion aircraft, including a bottom battery panel 1, a battery box is installed on one end of the bottom battery panel bottom 1, which is characterized in that an installation setting hole 5 are opened at the four corners of the subscribed bottom battery panel, an installation block 8 is installed inside the installation setting hole 5, installation through holes are opened on the installation block 8, threaded cylinders 11 are attached to both sides of one end of the installation block 8, a set screw 10 is connected inside of the threaded cylinders 11 by the thread, the position adjustment of the installation holes is carried out by the installation block 8, the installation adjustment hole 5, the adjustment screw 10 and the threaded cylinders 11 designed.

The threaded cylinders 11 are fixed on the installation block 8, the installation block 8 is placed in the installation adjustment hole 5, through the rotation of the adjustment screw 10, the screw 10 is adjusted and the threaded cylinders 11 for thread screwing, and the installation block 8 is driven to be moved in the installation adjustment hole 5, it effectively avoids the installation difficulty increase caused by the processing deviation.

A rotating column 16 is connected to one end of the adjusting screw 10, the rotating installation of the adjusting screw 10 to the support plate is achieved by the rotation of the adjusting screw 10 to prevent its displacement.

A second support plate 17 is installed at the outer wall of the rotating column 16, a first support plate 15 is installed at the wall of another end of the adjustment screw 10, the first support plate 15 and the second supporting plate 17 are fixed on the bottom battery panel 1, a rotating rod 13 is connected on the first supporting plate 15 rotatably, a main gear 12 is connected to the outer wall of the rotating rod 13, gears secondary gears 14 are connected to both sides of the main gear 12 by meshing, driving the synchronized rotation of the two adjusting screws 10 and carried out by the main gear 12 and the secondary gears 14 designed, and the rotation of The synchronized meshing of the main gear 12 and the sub gears 14 at both sides is realized by the rotation of the main gear 12 to make the adjustment in the present invention more economical and convenient.

The designed guide block and side guide groove assist the adjustment and guidance of the installation block in the installation adjustment hole to prevent it from tilting.

The secondary gears 14 are attached to the end surface of the adjustment screw 10, a side guide groove 7 is opened at the side wall of the installation adjustment hole 5, a guide block 9 is installed at the Inside the side guide groove 7, the guide block 9 and the side guide groove 7 designed assist the adjustment and guidance of the installation block 8 in the installation adjustment hole 5 to prevent it from tilting.

The guide block 9 is attached to the side wall of the installation block 8, the section of the installation block 8 is T-shaped, the section of the rotating column 16 is H-shaped, ribs of

7 BE2022/5596 reinforcement are attached to the side wall of the first support plate 15 and the second support plate 17, the section of the reinforcing ribs is triangular in shape.

In the present exemplary embodiment, preferably the energy storage device for the long life fixed wing solar electric propulsion aircraft described in claim 1, which is characterized in that an operation box 3 is installed at one end of the battery box 6, a pump 19 and a cooling tank 20 are installed inside the operation box 3, several thermal sensors are installed at the side wall of the battery box 6 , a U-shaped cooling tube 18 is installed inside the battery case 6, a control module 4 is installed on the operation box 3, a data analysis module is connected inside of the control module 4 electrically, the control module 4 and the pump 19 are electrically connected. The thermal sensors 2 monitor the temperature of the battery bank in the battery case 6 in real time by the pump 19, the cooling tank 20, the U-shaped cooling tube 18 and the thermal sensors 2. When its temperature is too high, they send data to the data analysis module, and the data analysis module give the order to the pump 19 by the control module 4, the pump 19 operates and transmits the coolant in the cooling tank 20 to the U-shaped cooling tube 18, which flows into the U-shaped cooling tube 18 to quickly reduce the temperature of the accumulator group located on the U-shaped cooling tube 18 and prevent the damage caused by excessively high temperature. At the same time, the pump 19 responds to it by the degree of temperature monitored by the thermal sensors 2 in order to reduce energy consumption effectively, a wireless receiving module is connected to the control module 4 electrically, a module wireless transmitting module is connected on the thermal sensors 2 electrically, the wireless transmitting module and the wireless receiving module are connected by the wireless network, the wireless transmitting module and the wireless receiving module designed are connected by the wireless network so that the data detected by the thermal sensors 2 are sent immediately to the data analysis module for analysis. This reduces the amount of tidy cables and avoids safety problems caused by too many circuits, an auxiliary power supply module is installed inside the operation box 3, the auxiliary power supply module is connected to a inverter electrically, the output ends of the subscribed inverter are respectively connected to the input ends of the thermal sensors 2, the pump 19 and the control module 4 electrically, the output end of the pump 19 is connected to the end of the cooling tank 20 by the pipe, the two ends of the U-shaped cooling tube 18 are respectively connected to the inlet end of the cooling tank 20 and the outlet end of the pump 19, the auxiliary power supply is carried out by the sensors

° BE2022/5596 thermics 2, the pump 19 and the control module 4 to avoid that the machine cannot work normally when the power supply is cut off.

The working principles and use procedures of the present invention: In the present invention, when the installation holes of the energy storage battery cannot be aligned due to the processing errors, by the rotation of the main gear 12, the synchronized meshing rotation of the main gear 12 and the secondary gears 14 is performed, and the synchronized rotation of the two adjusting screws 10 is performed so that the adjustment in the present invention is more economical and practical, the screw 10 and the threaded cylinders 11 are set for thread screwing, and the installation block 8 is driven to be moved into the installation setting hole 5, this effectively avoids the increase in difficulty of installation caused by processing deviation. When storing energy in the present invention, in order to avoid the damage caused by the too high temperature, at this time the thermal sensors 2 monitor the accumulator group in the battery box 6 in real time, when its temperature is too high, they send the data to the data analysis module which gives the order to the pump 19 by the control module 4, the pump 19 works and transmits the coolant in the cooling tank 20 to the U-shaped cooling tube 18, which flows into the U-shaped cooling tube 18 to quickly reduce the temperature of the accumulator group located on the U-shaped cooling tube 18 and avoid the damage caused by the too high temperature, at the same time, the pump 19 responds to it by the degree of the temperature monitored by the thermal sensors 2 to effectively reduce energy consumption.

Notwithstanding the exemplary embodiments have been given and described, to an ordinary person skilled in the art, it is understood that multiple modifications, changes, substitutions and variations may be made to these exemplary embodiments without departing from the principle and the spirit of the present invention, and the scope of the present invention is limited by the appended claims and their equivalents.

Claims (8)

) BE2022/5596 Claims 1. An energy storage device for the long-range fixed-wing solar electric propulsion aircraft, including a bottom battery panel (1), a battery box is 1installed on one end of the bottom battery panel. bottom (1), which is characterized in that an installation adjustment hole (5) are opened at the four corners of the subscribed bottom battery panel, an installation block (8) is installed inside the installation adjustment hole(S) subscribed, installation through holes are opened on the installation block (8) subscribed, threaded cylinders (11) are attached to both sides of one end of the installation block installation (8), an adjusting screw (10) is connected inside the threaded cylinders (11) by the thread, a rotating column (16) is connected to one end of the subscribed adjusting screw (10), a second support plate (17) is installed on the outer wall of the undercut rotating column (16), a first support plate (15) is installed on the wall of another end of the undercut adjustment screw (10), the first support plate (15) and the second support plate (17) subscribed are fixed on the bottom battery panel (1), a rotating rod (13) is connected on the first support plate (15) subscribed from rotating manner, a main gear (12) is connected to the outer wall of the rotating rod (13) subscribed, secondary gears (14) are connected to both sides of the main gear (12) subscribed by the mesh, the secondary gears (14) subscribed are fixed to the end surface of the adjustment screw (10). 2. The energy storage device for the long-life fixed-wing solar electric propulsion aircraft described in claim 1, which is characterized in that an operation box (3) is installed at one end of the battery box (6) subscribed, a pump (19) and a cooling tank (20) are installed inside the operation box (3) subscribed, several thermal sensors are installed at the side wall of the battery box (6), a U-shaped cooling tube (18) is installed inside the subscribed battery box (6), a control module (4) is installed on the operation box (3 ), a data analysis module is connected inside the control module (4) subscribed electrically, the control module (4) and the pump (19) subscribed are electrically connected. 3. The energy storage device for the long-range fixed-wing solar electric propulsion aircraft described in claim 2, which is characterized in that a wireless receiving module is connected to the control module ( 4) electrically subscribed, a wireless transmitting module is connected to the thermal sensors (2) electrically subscribed, the wireless transmitting module and the wireless receiving module are connected by the wireless network. © BE2022/5596 4. The energy storage device for the long-range fixed-wing solar electric propulsion aircraft described in claim 2, which is characterized in that an auxiliary power supply module is installed inside the subscribed operation box (3), the subscribed auxiliary power supply module is connected to an inverter electrically, the output ends of the subscribed inverter are respectively connected to the input ends of the thermal sensors (2), the pump (19) and the control module (4) electrically. 5. The energy storage device for the long-range fixed-wing solar electric propulsion aircraft described in claim 2, which is characterized in that the outlet end of the subscribed pump (19) is connected to the end of the cooling tank (20) through the pipe, the two ends of the U-shaped cooling tube (18) are respectively connected to the inlet end of the cooling tank (20) and the end of pump outlet (19). 6. The energy storage device for the long-range fixed-wing solar electric propulsion aircraft described in claim 1, which is characterized in that a side guide groove (7) is opened at the side wall of the installation adjustment hole (5) underwritten, a guide block (9) is installed inside the side guide groove (7) underwritten, the guide block (9) underwritten is fixed to the side wall of the installation block (8). 7. The energy storage device for the long-range fixed-wing solar electric propulsion aircraft described in claim 6, which is characterized in that the cross section of the installation block (8) subscribed is shaped T, the section of the rotating column (16) below is H-shaped. 8. The energy storage device for the long-range fixed-wing solar electric propulsion aircraft described in claim 1, which is characterized in that reinforcing ribs are attached to the side wall of the first base plate. support (15) and the second support plate (17) subscribed, the section of the subscribed reinforcing ribs are triangular in shape.