KR20190105253A - Battery case for drone - Google Patents

Abstract

The present invention relates to a battery case for drone and, more specifically, to a battery case for drone capable of raising the ambient temperature of a battery for drone and preventing the performance of a battery for drone being degraded due to the low external temperature, further increasing the performance of a battery for drone by ensuring that the temperature of the air around the battery for drone is evenly formed, increasing the adhesion between a body and cap to tightly seal a body, and preventing damage to a body by properly attenuating pressure when pressure inside the body rises.

Description

Battery case for drones {Battery case for drone}

The present invention relates to a battery case for a drone, and more specifically, to increase the ambient temperature of the battery for the drone, it is possible to prevent the performance of the battery for the drone due to the low external temperature, the air of the battery surrounding the drone By uniformly forming the temperature, the performance of the battery for the drone can be further increased, and the adhesion between the main body and the cap is increased, thereby making it possible to more firmly form a seal of the main body, and attenuate it properly when the pressure inside the main body is increased. It relates to a battery case for a drone that can prevent damage to the body.

The drone is usually driven using a lithium polymer or lithium ion battery in consideration of weight, volume, power efficiency, and the like, and is mounted in the form of a battery pack in which a plurality of lithium polymer or lithium ion batteries are connected.

Such drone batteries usually require 20 to 30 minutes of continuous drone running out of charge and must be replaced or recharged.

However, such a battery for a drone has a problem in that when the external air is cold, low temperature is transferred to the battery and the efficiency of the battery is drastically deteriorated. In particular, because drones fly over the air, the temperature is lower than the ground and the air flows faster, making the battery more efficient.

Therefore, it is necessary to develop a device capable of increasing the discharge efficiency of the drone battery by keeping the temperature of the drone battery at an optimum temperature even when the outside temperature is low.

KR10-1807368 (registration number) 2017.12.04.

An object of the present invention is to provide a battery case for a drone capable of preventing the performance of a drone battery from being degraded due to a low external temperature by raising the temperature of the drone battery.

In addition, an object of the present invention is to provide a battery case for a drone that can further increase the performance of the battery for the drone by making the temperature of the air surrounding the battery for the drone uniform.

In addition, an object of the present invention is to provide a battery case for a drone which can increase the adhesion between the main body and the cap, and thereby form a tight seal of the main body.

In addition, an object of the present invention is to provide a battery case for a drone which can prevent the damage of the main body by attenuating it properly when the pressure inside the main body rises.

The present invention provides a drone battery case for accommodating a battery for a drone mounted to a drone, the body including the battery for the drone; And a cap provided at an upper end of the main body to seal the upper part of the main body, wherein the main body comprises: a box-shaped outer shell having an upper opening; A heat insulation part formed in a box shape having an upper portion opened and provided inside the outer shell; A heat generating part provided on at least one inner side of the heat insulating part to generate heat when electricity is supplied; An insulating part formed in a box shape having an upper portion opened and provided inside the heat generating part; A flame-retardant part formed of a flame-retardant material having an open upper portion and provided inside the insulator, for accommodating the drone battery; A supporter provided at a plurality of inner surfaces of the flameproof part so as to be spaced apart from the drone battery and the flameproof part so that spaced spaces between the drone battery and the flameproof part communicate with each other; A heating battery provided inside the flameproof part to supply power to the heating part; A temperature sensor provided inside the flameproof part to measure a temperature of a space spaced between the drone battery and the flameproof part; And a controller configured to provide power of the heat generating battery to the heat generating unit when the measured value of the temperature sensor is lower than a set temperature.

In addition, the present invention includes a; circulating fan provided on the inside of the cap, wherein the control unit, if the measured value of the temperature sensor is less than the set temperature so that the power supply of the heat generating battery is provided to the circulating fan.

In addition, the cap of the present invention is formed in a shape in which a lower surface facing the upper end of the main body concavely inserted into the upper, one surface is formed to be flexible and coupled to the outer surface of the outer shell, the outer surface of the outer shell One surface opposite to the one surface is provided with a Velcro.

In addition, the cap of the present invention is formed in a shape in which a lower surface opposing the upper end of the main body concave upwardly, one surface is hinged to the outer surface of the outer shell.

In addition, the present invention includes an expansion tank provided inside the cap, wherein the expansion tank is compressed when the air pressure inside the body is increased to reduce the air pressure inside the body.

In addition, the present invention, the main body includes a safety valve penetrating the inner and outer parts, the safety valve is open when the air pressure inside the main body is greater than the set pressure to release the air inside the main body to the outside.

In addition, the heat insulating part of the present invention, the heat insulating material is filled with a heat insulating pack is sealed.

In addition, the heat generating portion of the present invention is a carbon heat generating fiber.

The present invention is provided with a heat generating unit has an effect that can prevent the performance of the battery for the drone due to the low external temperature.

In addition, the present invention, the circulation fan is provided so that the temperature of the air surrounding the battery for the drone is formed uniformly there is an effect that can further increase the performance of the battery for the drone.

In addition, the present invention has the effect that the adhesion between the main body and the cap is increased by recessing the lower surface of the cap upwardly, and thus the sealing of the main body can be more firmly formed.

In addition, the present invention, by providing an expansion tank, there is an effect that can be appropriately attenuated when the pressure inside the main body is increased to prevent damage to the main body.

In addition, the present invention, by providing a safety valve, there is an effect that can prevent the breakage of the main body by releasing it properly when the pressure inside the main body rapidly rises.

1 is a partially cutaway perspective view of a main body of a battery case for a drone of the present invention.
2 is a cross-sectional view of a battery case for a drone of the present invention.
3 is a cross-sectional view of another embodiment of a battery case for a drone of the present invention.
4 is a cross-sectional view of another embodiment of a battery case for a drone of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

According to the present invention, in the battery case for a drone that accommodates the drone battery 10 and is mounted to the drone, the main body 100 is sealed to seal the upper part of the main body 100 and the upper part of the main body 100. It is configured to include a cap 200 provided on the top of the 100.

The main body 100 includes a box-shaped outer shell 110 having an upper opening, a heat insulating part 120 formed inside the outer shell 110 by being formed in a box shape having an upper opening, and a heat insulating part 120. The heating unit 130 is provided on at least one inner side surface and generates heat when electricity is supplied, the upper portion is formed in an open box shape, the insulation unit 140 provided inside the heating unit 130 and the upper portion It is formed of an open box-shaped flame retardant material is provided on the inside of the insulating portion 140, the flame-retardant portion 150 is accommodated for the drone battery 10, and provided on a plurality of places on the inner surface of the flame-retardant portion 150 for the drone The supporter 160 is spaced apart from the battery 10 and the flame retardant 150, and the space between the drone battery 10 and the flame retardant 150 is in communication with each other, and inside the flame retardant 150. Is provided with a heat generating battery 170 for supplying power to the heat generating unit 130, the flameproof portion 150 is provided inside the battery for the drone When the measured value of the temperature sensor 180 and the temperature sensor 180 that is spaced apart from the space between the flame retardant portion 10 and 150 is less than the set temperature, the power supply of the heat generating battery 170 is a heat generating portion It is configured to include a control unit (not shown) to be provided to 130.

The outer shell 110 determines the external shape of the battery case for a drone according to the present invention, and includes the heat insulating part 120, the heat generating part 130, the insulating part 140, the flame retardant part 150, and the supporter 160 located inside. In addition, the heating battery 170, the temperature sensor 180, the controller, the drone battery 10, and the like serve to protect against external pollution, moisture, shock, and the like.

To this end, the outer shell 110 is formed in a rectangular box shape with an upper opening, and an insulating part 120 is provided inside. The outer shell 110 may be formed of hard synthetic resin or metal, and a hole for installing the safety valve 101 may be formed on one side thereof. In addition, when the cap 200 is configured to be fixed to the main body 100 without being opened and closed, the charging connector 102 for charging the heating battery 170 and the drone battery 10 is provided at one side of the outer shell 110. A separate hole may be further formed to be mounted.

One side of the outer cap 110 is coupled to one side of the cap 200, one side of the cap 200 is coupled when one side of the cap 200 is formed of a flexible material is immediately the outer shell 110 Is coupled to, if one side of the cap 200 is formed of a material of the material may be coupled by a separate hinge. In addition, a velcro or clip-type fixing device may be further provided on the outer side of the surface to which the cap 200 is coupled to more securely couple the cap 200.

The heat insulating part 120 serves to prevent the heat emitted from the heat generating part 130 from being lost to the outside. The heat insulating part 120 is formed in a rectangular box shape having an upper portion opened therein, and is provided inside the outer shell 110.

The heat insulating part 120 is a heat insulating pack of a foamed synthetic resin material, a heat insulating material of woven fiber or non-woven fabric, or a heat insulating material is sealed or filled with a heat insulating material and sealed or filled with an inert gas and sealed after being vacuumed. It may be configured as. In addition, the heat insulating part 120 may be integrally formed with four side surfaces and one bottom surface, but is not limited thereto, and may be formed by forming each surface and then combining them.

On the other hand, the heat insulating part 120 may be formed in one side of the hole for the installation of the safety valve 101. In addition, when the cap 200 is configured to be fixed to the main body 100 without being opened and closed, the charging connector 102 for charging the heating battery 170 and the drone battery 10 on one side of the heat insulating part 120. A separate hole may be further formed to be mounted.

The heating unit 130 increases the ambient air temperature of the drone battery 10 when the temperature of the drone battery 10 is low and does not perform its performance, thereby increasing the performance of the drone battery 10. To this end, it is provided on at least one inner surface of the heat insulating part 120 is heated when electricity is supplied.

Heat generating unit 130 is preferably provided on the inner side of the four sides and the bottom surface of the heat insulating portion 120, but is not limited to this is provided on at least one or more inner surface of the heat insulating portion 120, the generated heat Anything that can be delivered to the battery 10 for the drone is possible.

The heat generating unit 130 generates heat when power is supplied from the heat generating battery 170. For this purpose, the heat generating unit 130 is electrically connected to the heat generating battery 170, and the power supply is opened and closed under the control of the controller.

The heat generating unit 130 is composed of carbon heating fibers, and the carbon heating fibers can be woven at evenly spaced carbon fibers, so that the carbon heating fibers are arranged at equal intervals throughout the box so that the temperature is uniform throughout. Can provide.

The heating unit 130, a hole for the installation of the safety valve 101 may be formed on one side. In addition, when the cap 200 is configured to be fixed to the main body 100 without being opened and closed, the charging connector 102 for charging the heating battery 170 and the drone battery 10 on one side of the heating unit 130. A separate hole may be further formed to be mounted.

The insulation unit 140 serves to prevent the heat generating battery 170 or the drone battery 10 from being damaged or exploded by cutting off electricity that may leak from the heat generating unit 130. Is formed in a box shape is provided inside the heat generating unit 130.

The insulating part 140 is formed of an insulating material such as rubber and synthetic resin, and is preferably formed by being integrally injected. However, the insulating part 140 may be formed by combining with each other.

The insulating part 140 may have a hole formed at one side thereof for installing the safety valve 101. In addition, when the cap 200 is configured to be fixed to the main body 100 without being opened or closed, the charging connector 102 for charging the heating battery 170 and the drone battery 10 on one side of the insulating unit 140. A separate hole may be further formed to be mounted.

Flame-retardant part 150, when the heat generating unit 130, the heat generating battery 170 or the drone battery 10 is damaged and the spark is generated to act to prevent the fire from occurring, the upper Is formed of an open box-shaped flame retardant is provided on the inside of the insulating portion 140, the drone battery 10 is accommodated inside.

Flameproof part 150 may be formed in one side of the hole for the installation of the safety valve 101. In addition, when the cap 200 is configured to be fixed to the main body 100 without being opened and closed, the charging connector 102 for charging the heating battery 170 and the drone battery 10 on one side of the flame-retardant portion 150. A separate hole may be further formed to be mounted.

The supporter 160 forms an air flow path between the drone battery 10, the heat generating battery 170, and the flame retardant unit 150 so that air circulation can be performed outside the drone battery 170, and the main body ( When a shock is transmitted from the outside of the 100, it buffers it so that the drone battery 10 and the heat generating battery 170 are not damaged.

To this end, the supporter 160 is provided at a plurality of inner surfaces of the flameproof part 150 and spaced apart between the heat generating battery 170 or the drone battery 10 and the flameproof part 150, and the heat generating battery 170. Or spaced apart space between the drone battery 10 and the flame-retardant portion 150 is configured to communicate with each other.

The supporter 160 is formed in the shape of a hexahedral block or a circular column having elasticity, and is provided to be spaced apart from each other on the inner surface of the flameproof part 150. That is, the drone battery 10 or the heat generating battery 170 is supported by the supporter 160 is spaced apart from the flame-retardant portion 150, it is configured to allow air to flow therebetween.

The supporter 160 is a supporter 160 provided on the same surface of the flameproof portion 150 so that the drone battery 10 or the heat generating battery 170 can be stably supported from the flameproof portion 150. It is preferable that the distances to the inner surface of the 160 are configured to be the same.

The heat generating battery 170 serves to supply power to the temperature sensor 180, the heat generating unit 130, and the circulation fan 210 to be described below, and is provided inside the flameproof unit 150 to support the supporter ( 160). And, for this purpose, the heat generating battery 170 is electrically connected to the temperature sensor 180, the heat generating unit 130, and the circulating fan 210 to determine the supply and cutoff of power by the controller.

The heat generating battery 170 is a rechargeable battery, which may be a conventional lithium-ion battery, but is not limited thereto.

The temperature sensor 180 serves to provide a measurement value for the controller to drive the heat generating unit 130 or the circulation fan 210, and for this purpose, the temperature sensor 180 is provided inside the flameproof unit 150. 10 or measure the temperature of the spaced space between the heat generating battery 170 and the flame-retardant portion 150, and transmits the measured value to the controller.

The control unit serves to prevent the power of the heat generating battery 170 from being supplied or supplied to the heat generating unit 130 or the circulation fan 210. For this purpose, the control unit is provided inside the flameproof unit 150 to provide a temperature sensor ( 180, the heat generating unit 130, the circulation fan 210, the heat generating battery 170 is electrically connected.

If the measured value transmitted from the temperature sensor 180 is less than the set temperature, the control unit may provide the power of the heat generating battery 170 to the heat generating unit 130. When the heat is emitted from the heat generating unit 130 and the measured value of the temperature sensor 180 is equal to or higher than the set temperature, the power provided to the heat generating unit 130 is cut off from the heat generating battery 170.

In addition, when the measured value of the temperature sensor 180 is lower than the set temperature, that is, when the heat generating unit 130 generates heat, the control unit drives the circulation fan 210 provided in the cap 200 to generate a heat generating battery ( 170 or the air in the spaced space between the drone battery 10 and the flame-retardant portion 150 is circulated. As a result, the air around the heat generating battery 170 or the drone battery 10 is uniformly heated to increase battery efficiency.

On the other hand, the control unit is configured to determine the remaining amount of the heat generating battery 170 from the outside by measuring the remaining amount of the heating battery 170 by lighting a separate LED provided on the outer shell 110 or the cap 200. Can be.

The safety valve 101 serves to attenuate the pressure inside the main body 100 by releasing the air inside the main body 100 to the outside when the air pressure inside the main body 100 increases rapidly. It is provided to penetrate the inside and outside of the).

The safety valve 101 is configured in the form of a check valve, and the air or moisture introduced into the interior from the outside of the main body 100 is blocked, but the air discharged from the inside of the main body 100 to the outside is configured to pass. .

Safety side 101 is a hole formed in the main body 100, that is, the outer side 110, the heat insulating portion 120, the heat generating portion 130, the insulating portion 140, the flame-retardant portion 150 formed in the flame-retardant portion 150 is installed. It is mounted in the hole for, the safety valve 101 and the outer shell 110, between the safety valve 101 and the flame retardant portion 150 may be further provided with an O-ring to prevent the loss of air.

The cap 200 serves to seal the upper part of the main body 100 so that the inside of the main housing is in a sealed state, and for this purpose, the cap 200 is provided to be openable or fully coupled to the upper part of the main body 100.

When the cap 200 is configured as an openable type, the cap 200 may be divided into a flexible openable form and a hard openable form. When the cap 200 is opened and closed in a flexible manner, the cap 200 is formed of a flexible material on one surface thereof, and is coupled to the outer surface of the outer shell 110 and faces the one surface coupled to the outer surface of the outer shell 110. One side may be provided with a velcro or clip-type fixing device. On the other hand, when the cap 200 is formed of a hard material, one surface of the cap 200 is hinged to the outer surface of the outer shell (110). In addition, the outer shell 110 may further include a velcro or clip type fixing device for more firmly coupling the cap 200 to the outer side of the surface on which the cap 200 is coupled.

On the other hand, the cap 200 may be formed in a shape in which a lower surface facing the upper end of the main body 100 is recessed in the upper portion so that the contact portion with the main body 100 can be further sealed with the outside. Therefore, when the cap 200 is closed, when the upper edge of the main body 100 and the inlet of the cap 200 are in contact with each other, the contact with the cap 200 not only at the top but also at the corner portion, and further, at the upper side surface thereof is further enhanced. You can increase it. In addition, at this time, the upper end of the main body 100 or the inlet of the cap 200 is provided with a separate seal can further increase the adhesion.

The circulation fan 210 serves to circulate the air in the main body 100 so that the temperature of the air in the main body 100 is made uniform. It is electrically connected to the battery 170. The gap between the cap 200 and the heat generating battery 170 is greater than the gap between the heat generating battery 170 and the inner surface and the inner bottom surface of the flameproof part 150 to generate heat by the rotation of the circulation fan 210. The movement of air in the upper portion of the battery 170 is facilitated, and the air flow is also smooth in the side and the lower surface of the heating battery 170.

The expansion tank 220 is compressed when the air pressure inside the main body 100 increases to serve to attenuate the air pressure inside the main body 100, and is provided inside the cap 200 for this purpose.

The expansion tank 220 is configured in the form of an air box filled with nitrogen or general air, the expansion tank 220 is configured to have a large surface elasticity to expand the expansion tank 220 when the air pressure in the main body 100 increases The wide surface of the pushed to the inside and the pressure inside the main body 100 is attenuated.

Meanwhile, the drone battery 10 and the heat generating battery 170 may be removed from the main body 100 when being charged, and then coupled to the main body 100 after charging, but the cap 200 is the main body 100. In the case of being integrally coupled to (), it is difficult to separate the drone battery 10 and the heat generating battery 170 from the main body 100.

Therefore, in this case, a separate charging connector 102 for charging the drone battery 10 and the heat generating battery 170 is provided. The charging connector 102 is provided to penetrate the inside and outside of the main body 100, and is electrically connected to the controller, the drone battery 10, and the heat generating battery 170 therein, and that is, the flameproof of the main body 100. Between the unit 150 and a separate sealing O-ring is provided. And the outer side of the main body 100, that is, the outer side of the outer shell 110 is provided with a screw-type waterproof cap (200, 103) detachably attached to the charging connector 102, when charging to remove the external power supply And, when the charge is completed after use, the screw type waterproof cap 200, 103 is mounted so that the charging connector 102 can be sealed from the outside.

The present invention having the above-described configuration is provided with a heat generating unit 130 has an effect that can prevent the performance of the drone battery 10 is lowered by the low external temperature.

In addition, the present invention, the circulation fan 210 is provided so that the temperature of the air around the drone battery 10 is formed uniformly there is an effect that can further increase the performance of the battery 10 for the drone.

In addition, the present invention has the effect that the lower surface of the cap 200 is recessed in the upper portion to increase the adhesion between the main body 100 and the cap 200, it is possible to more tightly form the sealing of the main body 100. .

In addition, the present invention, the expansion tank 220 is provided, there is an effect that can be appropriately attenuated when the pressure inside the main body 100 is increased to prevent damage to the main body 100.

In addition, the present invention, by providing a safety valve 101, there is an effect that can prevent the damage to the main body 100 by properly discharging it when the pressure inside the main body 100 is rapidly increased.

100: body 101: safety valve
102: charging connector 103: screw waterproof cap
110: jacket 120: insulation
130: heat generating portion 140: insulating portion
150: flame retardant 160: supporter
170: heat generating battery 180: temperature sensor
200: cap 210: circulation fan
220: expansion tank

Claims (8)

In the battery case for a drone that accommodates a drone battery and is mounted on the drone,
A main body accommodating the drone battery;
A cap provided at an upper end of the main body to seal an upper part of the main body;
Including,
The main body,
A box-shaped shell with an upper opening;
A heat insulation part formed in a box shape having an upper portion opened and provided inside the outer shell;
A heat generating part provided on at least one inner side of the heat insulating part to generate heat when electricity is supplied;
An insulating part formed in a box shape having an upper portion opened and provided inside the heat generating part;
A flame-retardant part formed of a flame-retardant material having an open upper portion and provided inside the insulator, for accommodating the drone battery;
A supporter provided at a plurality of inner surfaces of the flameproof part so as to be spaced apart from the drone battery and the flameproof part so that spaced spaces between the drone battery and the flameproof part communicate with each other;
A heating battery provided inside the flameproof part to supply power to the heating part;
A temperature sensor provided inside the flameproof part to measure a temperature of a space spaced between the drone battery and the flameproof part;
A controller configured to provide power of the heat generating battery to the heat generating unit when the measured value of the temperature sensor is lower than a set temperature;
Battery case for a drone comprising a.
The method of claim 1,
And a circulation fan provided inside the cap.
The control unit, the battery case for a drone so that the power supply of the heat generating battery is provided to the circulation fan if the measured value of the temperature sensor is less than a set temperature.
The method of claim 2,
The cap is formed in a shape in which a lower surface opposing the upper end of the main body is recessed into the upper concave shape, one surface is formed to be flexible and coupled to the outer surface of the outer shell, the one surface coupled to the outer surface of the outer shell One side is a battery case for a drone provided with a Velcro.
The method of claim 2,
The cap is formed in a shape in which a lower surface facing the upper end of the main body concave recessed upward, one surface is hinged to the outer surface of the outer shell battery case.
The method of claim 1,
Includes; expansion tank provided inside the cap;
The expansion tank is compressed when the air pressure inside the main body is increased, the battery case for the drone to reduce the air pressure inside the main body.
The method of claim 5,
The main body includes a safety valve penetrating the inside and the outside;
The safety valve is a drone battery case is open when the air pressure inside the main body is greater than the set pressure to discharge the air inside the main body to the outside.
The method of claim 1,
The heat insulating part, a battery case for a drone comprising a heat insulating pack is filled with a heat insulating material is sealed.
The method of claim 1,
The heat generating unit is a battery case for a drone of carbon heating fibers.

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