CN215399353U - Unmanned aerial vehicle battery locking knob device - Google Patents

Abstract

The utility model relates to an unmanned aerial vehicle battery locking knob device, which comprises a bottom plate, wherein the bottom plate is arranged below an unmanned aerial vehicle body, a battery jar is arranged in the middle of the bottom plate, a clamping plate with a rack is arranged in the battery jar, a gear with a connecting rod is arranged in the bottom plate, the gear can drive the rack to move through rotation, when a battery needs to be installed, a buckling plate is lifted, the battery is placed in the battery jar according to a set position, a pull ring is used for pulling down the knob to enable a limiting rod to be separated from the limiting jar, the knob is rotated, the knob drives a clamping block to rotate through an insertion shaft, the clamping block drives the gear to rotate through the connecting rod to further drive the rack to move, the rack pushes the clamping plate to move towards the middle of the battery jar, the clamping plate clamps the battery in the battery jar, fixes the battery, rotates the buckling plate to tightly press a pressing sheet on the surface of the battery, and clamps the buckling sheet with a buckling seat to prevent the buckling plate from falling off; the utility model has the characteristics of reasonable structure, simple and convenient disassembly and assembly and good fixing effect.

Description

Unmanned aerial vehicle battery locking knob device

Technical Field

The utility model belongs to the technical field of unmanned aerial vehicles, and particularly relates to a battery locking knob device of an unmanned aerial vehicle.

Background

Unmanned aerial vehicle is called unmanned aerial vehicle for short, it is an unmanned aerial vehicle operated by radio remote control equipment and self-contained program control device, or it is operated by vehicle-mounted computer completely or intermittently, at present, unmanned aerial vehicle is widely used in civil, commercial and military fields, such as aerial photography, fire control, police investigation, national survey and drawing, monitor sea, high-voltage line, disaster, weather, etc., with the rapid development of commercial market of unmanned aerial vehicle, the demand for miniaturization, portability and stability of unmanned aerial vehicle products is increasing day by day, but because of the bottleneck of battery technology, the mass ratio of unmanned aerial vehicle power battery is quite high, and it is very likely to cause the unbalance of the whole machine because the battery is unstable, the existing battery fixing mode is, for example: the method of buckle, bandage, thread gluing etc. is inconvenient to operate, and it is also very troublesome to use, is unfavorable for the frequent change of unmanned aerial vehicle battery, causes the battery to thread off when the installation is improper easily, causes the unmanned aerial vehicle accident.

Disclosure of Invention

The utility model aims to provide an unmanned aerial vehicle battery locking knob device which is used for solving the problems that an unmanned aerial vehicle battery is complex to disassemble and assemble and the fixing effect is poor.

The purpose of the utility model is realized as follows: an unmanned aerial vehicle battery locking knob device comprises a bottom plate, wherein a battery groove is arranged in the middle of the bottom plate, clamping plates are arranged on the left side and the right side inside the battery groove, a rack is arranged in the middle of each clamping plate, a sliding rod is arranged on the outer side of each clamping plate, a sliding block is arranged at the end part of each sliding rod, a gear is arranged in the bottom plate, a connecting rod is arranged in the middle of each gear, a clamping block is arranged at the end part of each connecting rod, an inserting shaft is arranged on the upper side of each clamping block, grooves are formed in the left side and the right side outside the battery groove, limiting grooves are arranged on the outer sides of the grooves, a knob is arranged in each groove, inserting holes are formed in the upper side of each knob, a limiting rod is arranged on the outer side of each knob, a spring is arranged between each knob and each clamping block, a rotary seat is arranged on the rear side of the bottom plate, a buckle plate is arranged in the interior, the buckle plate is characterized in that a pressing sheet is arranged in the middle of the buckle plate, a buckle ring is arranged at the end of the buckle plate, and a buckle seat is arranged on the front side of the bottom plate.

And the bottom of the battery jar is provided with a shock pad.

Sliding grooves are formed in the front side and the rear side of the gear.

And a pull ring is arranged on the lower side of the knob.

The end part of the pressing sheet is provided with a sliding sleeve.

The limiting groove is matched with the limiting rod.

The clamping plate is L-shaped, and the pressing sheet is arc-shaped.

The shock pad material be the sponge, the preforming material be elastic plastic.

The utility model has the beneficial effects that: when the device is used, the bottom plate is arranged below an unmanned aerial vehicle body, when a battery needs to be installed, the buckle ring is taken out from the inside of the buckle seat, the buckle plate is lifted, the battery is placed into the battery groove according to a set position, the knob is pulled down by using the pull ring to enable the limiting rod to be separated from the limiting groove, at the moment, the knob is in a rotatable state, the knob drives the clamping block to rotate through the insertion shaft, the clamping block drives the gear to rotate through the connecting rod, the rack is driven to move, the clamping block pushes the clamping plate to move towards the middle of the battery groove, the sliding groove can prevent the clamping plate from deviating, the clamping plate clamps the battery in the battery groove, the pull ring is loosened, the spring drives the knob to move upwards, the limiting rod is clamped with the limiting groove, the knob is prevented from being mistakenly bumped, then the buckle plate is rotated, the pressing sheet is pressed on the surface of the battery, the buckle ring is clamped with the buckle seat, the buckle plate is prevented from falling off, and under the dual protection of the clamping plate and the buckle plate, the battery protection device has the characteristics of reasonable structure, simplicity and convenience in disassembly and assembly and good fixing effect.

Drawings

Fig. 1 is a bottom plate elevation structural view of the unmanned aerial vehicle battery locking knob device of the present invention.

Fig. 2 is an internal structure diagram of a battery jar of the unmanned aerial vehicle battery locking knob device of the present invention.

Fig. 3 is a schematic diagram of a clamping plate structure of the unmanned aerial vehicle battery locking knob device.

Fig. 4 is a connection structure diagram of a fixture block and a knob of the unmanned aerial vehicle battery locking knob device.

Fig. 5 is a schematic diagram of a buckle plate structure of the unmanned aerial vehicle battery locking knob device.

In the figure: 1. the device comprises a bottom plate 2, a battery jar 3, a shock pad 4, a clamping plate 5, a rack 6, a sliding rod 7, a sliding block 8, a sliding groove 9, a gear 10, a connecting rod 11, a clamping block 12, an inserting shaft 13, a groove 14, a limiting groove 15, a knob 16, an inserting hole 17, a limiting rod 18, a pull ring 19, a spring 20, a rotary seat 21, a clamping plate 22, a pressing plate 23, a sliding sleeve 24, a clamping ring 25 and a clamping seat.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1-2, an unmanned aerial vehicle battery locking knob device comprises a base plate 1, a battery jar 2 is arranged in the middle of the base plate 1, clamping plates 4 are arranged on the left and right sides inside the battery jar 2, a rack 5 is arranged in the middle of the clamping plates 4, a sliding rod 6 is arranged on the outer side of each clamping plate 4, a sliding block 7 is arranged at the end part of each sliding rod 6, a gear 9 is arranged inside the base plate 1, a connecting rod 10 is arranged in the middle of the gear 9, a clamping block 11 is arranged at the end part of the connecting rod 10, an inserting shaft 12 is arranged on the upper side of the clamping block 11, grooves 13 are arranged on the left and right sides outside the battery jar 2, a limiting groove 14 is arranged on the outer side of each groove 13, a knob 15 is arranged inside the groove 13, a jack 16 is arranged on the upper side of the knob 15, a limiting rod 17 is arranged on the outer side of the knob 15, and a spring 19 is arranged between the knob 15 and the clamping block 11, the rear side of the bottom plate 1 is provided with a rotary seat 20, a pinch plate 21 is arranged inside the rotary seat 20, a pressing plate 22 is arranged in the middle of the pinch plate 21, a snap ring 24 is arranged at the end part of the pinch plate 21, and a buckle seat 25 is arranged on the front side of the bottom plate 1.

When the utility model is used, the middle part of a bottom plate 1 is provided with a battery jar 2, the inside of the battery jar 2 is provided with a clamping plate 4 with a rack 5, the outside of the clamping plate 4 is provided with a slide bar 6 with a slide block 7, the inside of the bottom plate 1 is provided with a gear 9 with a connecting rod 10, the gear 9 is meshed with the rack 5, the gear 9 rotates to drive the rack 5 to move, the outside of the battery jar 2 is provided with a groove 13 with a limiting groove 14, the inside of the groove 13 is provided with a knob 15 with a limiting rod 17, the limiting rod 17 can be placed inside the limiting groove 14 to clamp the knob 15, the side jack 16 on the knob 15 is sleeved with an inserting shaft 12, the knob 15 is pulled downwards to separate the limiting rod 17 from the limiting groove 14, the inserting shaft 12 is inserted inside the jack 16, the knob 15 is rotated to drive the connecting rod 10 to rotate through the clamping block 11 to drive the gear 9 to rotate, the position of the clamping plate 4 is adjusted left and right through the rack 5 to clamp and fix the battery, the rear side of the bottom plate 1 is provided with a rotary seat 20 with a pinch plate 21, the pinch plate 21 can carry out secondary fastening on the battery through a pressing sheet 22, and the fixing effect is enhanced.

Example 2

As shown in fig. 1-5, an unmanned aerial vehicle battery locking knob device comprises a base plate 1, a battery jar 2 is arranged in the middle of the base plate 1, clamping plates 4 are arranged on the left and right sides inside the battery jar 2, a rack 5 is arranged in the middle of the clamping plates 4, a sliding rod 6 is arranged on the outer side of each clamping plate 4, a sliding block 7 is arranged at the end of each sliding rod 6, a gear 9 is arranged inside the base plate 1, a connecting rod 10 is arranged in the middle of the gear 9, a clamping block 11 is arranged at the end of the connecting rod 10, an inserting shaft 12 is arranged on the upper side of the clamping block 11, grooves 13 are arranged on the left and right sides outside the battery jar 2, a limiting groove 14 is arranged on the outer side of each groove 13, a knob 15 is arranged inside each groove 13, a jack 16 is arranged on the upper side of each knob 15, a limiting rod 17 is arranged on the outer side of each knob 15, and a spring 19 is arranged between each knob 15 and each clamping block 11, the rear side of the bottom plate 1 is provided with a rotary seat 20, a pinch plate 21 is arranged inside the rotary seat 20, a pressing plate 22 is arranged in the middle of the pinch plate 21, a snap ring 24 is arranged at the end part of the pinch plate 21, and a buckle seat 25 is arranged on the front side of the bottom plate 1.

For better effect, the bottom of the battery jar 2 is provided with a shock pad 3, and the shock pad 3 can reduce the influence of the vibration of the machine body on the battery.

For better effect, the front side and the rear side of the gear 9 are provided with sliding grooves 8, and the position of the sliding block 7 corresponds to the position of the sliding groove 8.

For better effect, the lower side of the knob 15 is provided with a pull ring 18, and the pull ring 18 is convenient for moving the knob 15.

For better effect, the end of the pressing sheet 22 is provided with a sliding sleeve 23, and the sliding sleeve 23 can slide outside the buckle 21.

For better effect, the limiting groove 14 is matched with the limiting rod 17.

For better effect, the clamping plate 4 is in an L shape, and the pressing plate 22 is in an arc shape.

For better effect, the damping pad 3 is made of sponge, and the pressing sheet 22 is made of elastic plastic.

When the utility model is used, the bottom plate 1 is arranged below an unmanned aerial vehicle body, when a battery needs to be installed, the buckle ring 24 is taken out from the inside of the buckle seat 25, the buckle plate 21 is lifted, the battery is placed into the battery groove 2 according to a set position, the knob 15 is pulled down by using the pull ring 18, the limiting rod 17 is separated from the limiting groove 14, at the moment, the knob 15 is in a rotatable state, the knob 15 rotates, the knob 15 drives the fixture block 11 to rotate through the inserting shaft 12, the fixture block 11 drives the gear 9 to rotate through the connecting rod 10, and further drives the rack 5 to move, the rack 5 pushes the clamp plate 4 to move towards the middle part of the battery groove 2, the slide rod 6 moves in the sliding groove 8 through the slide block 7, the clamp plate 4 can be prevented from deviating, the clamp plate 4 clamps the battery on the battery groove 2 to fix the battery, after the knob 15 is used, the pull ring 18 is loosened, the spring 19 drives the knob 15 to move upwards, so that the limiting rod 17 is clamped with the limiting groove 14, the battery clamping device has the advantages that the knob 15 is prevented from being mistakenly bumped, the clamping plate 4 is prevented from moving, the buckling plate 21 is turned over, the pressing plate 22 is tightly pressed on the surface of a battery, the buckling ring 24 is clamped with the buckling seat 25, the buckling plate 21 is prevented from falling off, the battery can be well fastened under the double protection of the clamping plate 4 and the buckling plate 21, the shock pad 3 at the bottom of the battery jar 2 can prevent the battery body from being damaged, when the battery needs to be replaced, the buckling ring 24 only needs to be taken out of the buckling seat 25, the knob 15 is rotated reversely, the clamping plate 4 moves towards the two sides of the battery jar 2 until the battery can be taken out, other auxiliary tools do not need to be used, and the battery clamping device is simple and rapid.

Claims (8)

1. The utility model provides an unmanned aerial vehicle battery locking knob device, it includes the bottom plate, its characterized in that: the middle part of the bottom plate is provided with a battery jar, the left side and the right side inside the battery jar are provided with clamping plates, the middle part of the clamping plates is provided with a rack, the outer side of the clamping plates is provided with a slide rod, the end part of the slide rod is provided with a slide block, the inner part of the bottom plate is provided with a gear, the middle part of the gear is provided with a connecting rod, the end part of the connecting rod is provided with a clamping block, the upper side of the clamping block is provided with an inserting shaft, the left side and the right side outside the battery jar are provided with grooves, the outer side of each groove is provided with a limiting groove, a knob is arranged inside each groove, the upper side of each knob is provided with a jack, the outer side of each knob is provided with a limiting rod, a spring is arranged between each knob and the clamping block, the rear side of the bottom plate is provided with a rotating seat, the inner part of each rotating seat is provided with a clamping plate, the middle part of each clamping plate is provided with a pressing sheet, the front side of the bottom plate is provided with a buckle seat.

2. The unmanned aerial vehicle battery locking knob device of claim 1, wherein: and the bottom of the battery jar is provided with a shock pad.

3. The unmanned aerial vehicle battery locking knob device of claim 1, wherein: sliding grooves are formed in the front side and the rear side of the gear.

4. The unmanned aerial vehicle battery locking knob device of claim 1, wherein: and a pull ring is arranged on the lower side of the knob.

5. The unmanned aerial vehicle battery locking knob device of claim 1, wherein: the end part of the pressing sheet is provided with a sliding sleeve.

6. The unmanned aerial vehicle battery locking knob device of claim 1, wherein: the limiting groove is matched with the limiting rod.

7. The unmanned aerial vehicle battery locking knob device of claim 1, wherein: the clamping plate is L-shaped, and the pressing sheet is arc-shaped.

8. The unmanned aerial vehicle battery locking knob device of claim 2, wherein: the shock pad material be the sponge, the preforming material be elastic plastic.

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