CN210778874U - Unmanned aerial vehicle battery that can last journey for a long time - Google Patents

Abstract

The utility model discloses an unmanned aerial vehicle battery capable of long-time endurance, which comprises a battery shell, wherein an electric core, a power display integrated block, a switching block, a switch and a plug are arranged in the battery shell; a core groove is arranged in the battery shell, and a battery core is fixed in the core groove; the electric quantity display integrated block is fixed in the battery shell through a bolt; a switching groove is formed in the battery shell, the switching block is positioned in the switching groove and is in sliding connection with the switching groove, the tail part of the switching block is glued with a return spring, and the return spring is glued in the switching groove; a slot is arranged in the battery shell, and the plug is positioned in the slot and forms sliding connection with the slot. The utility model discloses a set up switching piece, change over switch, plug, can realize a plurality of batteries automatic switch-over in the plant protection machine, increased the time of endurance of plant protection machine.

Description

Unmanned aerial vehicle battery that can last journey for a long time

Technical Field

The utility model relates to a battery field especially relates to an unmanned aerial vehicle battery that can continue a journey for a long time.

Background

The plant protection machine is a machine for rural plant protection. With the increasing input subsidy of the country to agriculture, modern plant protection machines are entering the hands of farmers. The plant protection machine overcomes the defects of labor force, and improves the production efficiency and the agricultural precision.

Plant protection unmanned aerial vehicle, also called unmanned vehicles, as the name implies is the unmanned aircraft who is used for agriculture and forestry plant protection operation, and this type unmanned aircraft comprises flight platform (fixed wing, helicopter, multiaxis aircraft), navigation flight control, spraying mechanism triplex, flies through ground remote control or navigation and controls, realizes spraying the operation, can spray medicament, seed, powder etc..

As the plant protection unmanned aerial vehicle carries heavier pesticides, the power consumption is faster, the endurance is poorer, and a plant protection battery with longer endurance time is needed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing the technical scheme that can solve above-mentioned problem.

The utility model discloses a solve above-mentioned technical problem through following technical scheme:

an unmanned aerial vehicle battery capable of long-time cruising comprises a battery shell, wherein a battery core, an electric quantity display integrated block, a switching switch and a plug are arranged in the battery shell;

a core slot is arranged in the battery shell, and the battery core is fixed in the core slot; the electric quantity display integrated block is fixed in the battery shell through a bolt; a switching groove is formed in the battery shell, the switching block is positioned in the switching groove and is in sliding connection with the switching groove, the tail part of the switching block is glued with a return spring, and the return spring is glued in the switching groove; a slot is arranged in the battery shell, and the plug is positioned in the slot and forms sliding connection with the slot;

the main body of the change-over switch is fixed in a battery shell through a bolt, the main body of the change-over switch is a micro electromagnet, an L-shaped iron button shell for adsorption of the micro electromagnet is arranged above the micro electromagnet, a change-over column is glued on the bottom surface of the vertical end of the button shell, a switch spring is vertically arranged on the top surface of the horizontal end of the button shell, two ends of the switch spring are respectively glued on the top surface of the horizontal end of the button shell and the battery shell, the change-over column is a cylinder with a round head at the bottom, and the change-over column is inserted into the slot and forms sliding connection with the bottom surface of; the tail part of the plug is provided with a fillet, and the bottom of the switching column and the tail part of the plug form a cam sliding rod transmission mechanism;

the top end of the battery cell is connected with the electric quantity display integrated block, the switching block, the micro electromagnet and the plug in series in sequence through electric wires, the bottom end of the battery cell is connected with the plug in series through electric wires, and the other end of the battery cell is also connected with the switching block in series through electric wires; the switch is connected in series with the display lamp on the electric quantity display integrated block.

Preferably, an n-type connector is arranged in the switching block, the opening of the n-type connector faces outwards, one end of the n-type connector is connected with the electric quantity display integrated block, and the other end of the n-type connector is connected with the switching switch.

Preferably, when the switching block is pressed into the bottom of the switching slot, the connection between the n-type connector and the electric quantity display integrated block and the switch is disconnected.

Preferably, the side wall of the plug is provided with a sliding block, a sliding groove matched with the sliding block is formed in the inserting groove, and the sliding groove limits the sliding block through the length of the sliding groove.

Preferably, the connecting wire joints of the n-type connector, the electric quantity display integrated block and the micro-electromagnet are provided with internal switching strips, one surface of each switching strip is tightly attached to the n-type connector, and the other surface of each switching strip is wound by the electric wires in the depth of the display integrated block and the switch; the connecting wire joint of the bottom end of the battery cell and the switching block in series is provided with an external switching strip, and the external switching strip is positioned on the outer side of the switching block and is not contacted with the n-type joint.

Preferably, the plug is a two-pin plug, and the outer surface of the plug pin of the plug is parallel to the outer surface of the shell of the plug; the outer end of the plug can form a sliding fit with the switching groove.

Compared with the prior art, the beneficial effects of the utility model are that: through setting up switching block, change over switch, plug, can realize a plurality of batteries automatic switch-over in the plant protection machine, increased the time of endurance of plant protection machine.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

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

Fig. 1 is a schematic diagram of the general structure of an unmanned aerial vehicle battery capable of long-term endurance;

fig. 2 is a schematic view of the unmanned aerial vehicle battery of the present invention, which can continue a long time;

fig. 3 is a schematic diagram of the unmanned aerial vehicle battery which can continue a journey for a long time after battery switching;

in the figure: a battery case 1; a battery core 2; an electric quantity display integrated block 3; a switching block 4; a micro-electromagnet 5; a plug 6; a core barrel 7; a switching slot 8; a return spring 9; a slot 10; an n-type terminal 11; a slider 12; a chute 13; an inner switching bar 14; an outer switching bar 15; a button housing 16; a switching column 17; a switch spring 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, in an embodiment of the present invention, an unmanned aerial vehicle battery capable of long-term endurance includes a battery case 1, and a battery core 2, an electric quantity display integrated package 3, a switch block 4, a switch, and a plug 6 are disposed in the battery case 1;

a core slot 7 is arranged in the battery shell 1, and the battery core 2 is fixed in the core slot 7; the electric quantity display integrated block 3 is fixed in the battery shell 1 through a bolt; a switching groove 8 is formed in the battery shell 1, the switching block 4 is positioned in the switching groove 8 and is in sliding connection with the switching groove 8, the tail part of the switching block 4 is glued with a return spring 9, and the return spring 9 is glued in the switching groove 8; a slot 10 is arranged in the battery shell 1, and the plug 6 is positioned in the slot 10 and forms sliding connection with the slot 10;

the main body of the change-over switch is fixed in the battery shell 1 through a bolt, the main body of the change-over switch is a micro electromagnet 5, the main body of the change-over switch is provided with an L-shaped iron button shell 16 used for adsorption of the micro electromagnet 5, the bottom surface of the vertical end of the button shell 16 is glued with a change-over post 17, the top surface of the horizontal end of the button shell 16 is vertically provided with a switch spring 18, two ends of the switch spring 18 are respectively glued on the top surface of the horizontal end of the button shell 16 and the battery shell 1, the change-over post 17 is a cylinder with a round head at the bottom, and the change-over post 17 is inserted into the slot 10 to form; the tail part of the plug 6 is provided with a fillet, and the bottom of the switching column 17 and the tail part of the plug 6 form a cam sliding rod transmission mechanism;

the top end of the electric core 2 is sequentially connected with the electric quantity display integrated block 3, the switching block 4, the micro electromagnet 5 and the plug 6 in series through electric wires, the bottom end of the electric core 2 is connected with the plug 6 in series through electric wires, and the other end of the electric core 2 is also connected with the switching block 4 in series through electric wires; the switch is connected in series with the display lamp on the electric quantity display integrated block 3.

An n-type connector 11 is arranged in the switching block 4, the opening of the n-type connector 11 faces outwards, one end of the n-type connector 11 is connected with the electric quantity display integrated block 3, and the other end of the n-type connector 11 is connected with a switching switch.

When the switching block 4 is pressed into the bottom of the switching groove 8, the connection between the n-type connector 11 and the electric quantity display integrated block 3 and the switch is disconnected.

The side wall of the plug 6 is provided with a sliding block 12, a sliding groove 13 matched with the sliding block 12 is arranged in the slot 10, and the sliding groove 13 limits the sliding block 12 through the length of the sliding groove 13.

The connection wire joints of the n-type connector 11, the electric quantity display integrated block 3 and the micro electromagnet 5 are provided with internal switching strips 14, one surface of each switching strip is tightly attached to the n-type connector 11, and the other surface of each switching strip is wound by the electric wires in the depth of the display integrated block and the switch; the connecting wire junction of the bottom end of the battery cell 2 and the switching block 4 in series is provided with an outer switching strip 15, and the outer switching strip 15 is positioned outside the switching block 4 and is not in contact with the n-type joint 11.

The plug 6 is a two-pin plug 6, and the outer surface of a plug pin of the plug 6 is parallel to the outer surface of a shell of the plug 6; the outer end of the plug 6 can form a sliding fit with the switching groove 8.

The utility model discloses a theory of operation is:

a plurality of batteries are installed together, a change-over switch is pressed, a change-over column 17 squeezes a plug 6 to push a change-over block 4 of a previous battery, so that the plug 6 is connected into a circuit through an outer change-over strip 15, and the change-over block 4 disconnects the circuit; when the working battery runs out of power, the indicator light of the power display integrated block 3 is turned off, the micro electromagnet 5 connected in series with the indicator light of the power display integrated block 3 is turned off, the switch spring 18 drives the switching column 17 to bounce, the reset spring 9 of the new battery pushes the switching block 4 to push away the plug 6 of the battery running out of power, and the electric core 2 of the new battery is powered through the switching circuit of the internal switching strip 14.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides an unmanned aerial vehicle battery that can last journey for a long time which characterized in that: the battery comprises a battery shell, wherein a battery core, an electric quantity display integrated block, a switching switch and a plug are arranged in the battery shell;

a core slot is arranged in the battery shell, and the battery core is fixed in the core slot; the electric quantity display integrated block is fixed in the battery shell through a bolt; a switching groove is formed in the battery shell, the switching block is positioned in the switching groove and is in sliding connection with the switching groove, the tail part of the switching block is glued with a return spring, and the return spring is glued in the switching groove; a slot is arranged in the battery shell, and the plug is positioned in the slot and forms sliding connection with the slot;

the main body of the change-over switch is fixed in a battery shell through a bolt, the main body of the change-over switch is a micro electromagnet, an L-shaped iron button shell for adsorption of the micro electromagnet is arranged above the micro electromagnet, a change-over column is glued on the bottom surface of the vertical end of the button shell, a switch spring is vertically arranged on the top surface of the horizontal end of the button shell, two ends of the switch spring are respectively glued on the top surface of the horizontal end of the button shell and the battery shell, the change-over column is a cylinder with a round head at the bottom, and the change-over column is inserted into the slot and forms sliding connection with the bottom surface of; the tail part of the plug is provided with a fillet, and the bottom of the switching column and the tail part of the plug form a cam sliding rod transmission mechanism;

the top end of the battery cell is connected with the electric quantity display integrated block, the switching block, the micro electromagnet and the plug in series in sequence through electric wires, the bottom end of the battery cell is connected with the plug in series through electric wires, and the other end of the battery cell is also connected with the switching block in series through electric wires; the switch is connected in series with the display lamp on the electric quantity display integrated block.

2. The unmanned aerial vehicle battery that can continue a journey for a long time of claim 1, characterized in that: an n-type connector is arranged in the switching block, the opening of the n-type connector faces outwards, one end of the n-type connector is connected with the electric quantity display integrated block, and the other end of the n-type connector is connected with the switching switch.

3. The unmanned aerial vehicle battery that can continue a journey for a long time of claim 1, characterized in that: when the switching block is pressed into the bottom of the switching groove, the connection between the n-type connector and the electric quantity display integrated block and the connection between the n-type connector and the switching switch are disconnected.

4. The unmanned aerial vehicle battery that can continue a journey for a long time of claim 1, characterized in that: the side wall of the plug is provided with a sliding block, a sliding groove matched with the sliding block is formed in the inserting groove, and the sliding groove limits the sliding block through the length of the sliding groove.

5. The unmanned aerial vehicle battery that can continue a journey for a long time of claim 2, characterized in that: the connection part of the n-type connector and the electric wire of the electric quantity display integrated block and the micro electromagnet is provided with an internal switching strip, one surface of the switching strip is tightly attached to the n-type connector, and the other surface of the switching strip is wound by the electric wire in the depth of the display integrated block and the switch; the connecting wire joint of the bottom end of the battery cell and the switching block in series is provided with an external switching strip, and the external switching strip is positioned on the outer side of the switching block and is not contacted with the n-type joint.

6. The unmanned aerial vehicle battery that can continue a journey for a long time of claim 2, characterized in that: the plug is a two-pin plug, and the outer surface of the plug pin of the plug is parallel to the outer surface of the shell of the plug; the outer end of the plug can form a sliding fit with the switching groove.

Images