CN219957678U - Power-on detection device for unmanned aerial vehicle battery assembly - Google Patents

Abstract

The utility model relates to the technical field of battery detection, in particular to an energization detection device for unmanned aerial vehicle battery assembly, which comprises a detection table, wherein one side of the detection table is fixedly connected with two brackets, one sides of the two brackets are fixedly provided with electric push rods, and the output ends of the electric push rods are fixedly connected with a movable plate. The utility model has the advantages that: through movable plate, adjustment tank, adjustment plate, locking threaded rod, butterfly nut, positioning card groove, positioning fixture block, fixed jack, L shape mounting bracket, test probe, fixed spring, pull block and fixed inserted bar's cooperation setting for this circular telegram detection device can be according to the actual size of battery and adjust the distance between two test probes, thereby can detect the work to the battery of more sizes, enlarged this circular telegram detection device's application scope, and make the operation of installation and dismantlement test probe comparatively simple and convenient, improved this circular telegram detection device's practicality and structural flexibility.

Description

Power-on detection device for unmanned aerial vehicle battery assembly

Technical Field

The utility model relates to the technical field of battery detection, in particular to an electrifying detection device for assembling an unmanned aerial vehicle battery.

Background

Unmanned aerial vehicle is abbreviated as "unmanned aerial vehicle", and english abbreviation "UAV", is unmanned aerial vehicle that utilizes radio remote control equipment and self-contained program control device to operate, perhaps by on-vehicle computer totally or intermittently independently, need use the battery to provide electric power to unmanned aerial vehicle in unmanned aerial vehicle flight's in-process, current unmanned aerial vehicle battery is generally group battery, links a plurality of batteries together to guarantee unmanned aerial vehicle's flight time longer. Whether unmanned aerial vehicle battery is battery or lithium cell, all need carry out the circular telegram before the production factory to guarantee the product quality of battery, among the prior art, generally all hand the crocodile clamp manually and be connected with the positive negative pole of battery, with carry out circular telegram detection to the battery, the workman need operate crocodile clamp repeatedly, and not only the work load is big, has certain potential safety hazard moreover, and can only detect a battery at every turn, very big influence the detection efficiency of battery.

In order to solve the above problems, in the chinese patent application publication CN218767231U, a battery discharge detection device is disclosed, in which a lifting device is used to drive a test probe to move up and down, so that the test probe is automatically docked with positive and negative terminals of a battery to perform discharge detection on the battery, which ensures safety, reduces workload of workers and improves detection efficiency.

Disclosure of Invention

The object of the present utility model is to solve at least one of the technical drawbacks.

Therefore, an object of the present utility model is to provide an energizing detection device for assembling an unmanned aerial vehicle battery, so as to solve the problems mentioned in the background art and overcome the disadvantages in the prior art.

In order to achieve the above-mentioned purpose, an embodiment of an aspect of the present utility model provides an energization detection device for assembling an unmanned aerial vehicle battery, which comprises a detection table, one side of the detection table is fixedly connected with two brackets, one side of each of the two brackets is fixedly provided with an electric push rod, the output end of each of the electric push rods is fixedly connected with a moving plate, one side of each of the moving plates, which is far away from the electric push rod, is provided with an adjusting groove, the inner wall of each of the adjusting grooves is slidably connected with two adjusting plates, one side of each of the two adjusting plates is fixedly connected with a locking threaded rod, the outer surface of each of the two locking threaded rods is fixedly connected with a butterfly nut, one side of each of the two adjusting plates is provided with a positioning clamping block, one side of each of the two positioning clamping blocks is provided with a fixing jack, the bottom side of each of the two positioning clamping blocks is fixedly connected with an L-shaped mounting frame, one side of each of the two L-shaped mounting frames is fixedly provided with a test probe, one side of each of the adjusting plates is fixedly connected with a fixing spring, one end of each of the fixing spring is fixedly connected with a butterfly nut, one end of each of the fixing spring is fixedly connected with a pull block, and one side of the pull rod is close to the detection table is fixedly connected with an indication switch.

By the preferred one side of above-mentioned arbitrary scheme, two put the thing groove has been seted up to one side of detecting the platform, two put the inner wall in thing groove and all seted up two spouts, one the inner wall of spout is connected with the lead screw through the bearing rotation, another the inner wall fixedly connected with guide bar of spout, the surface sliding connection of guide bar has the removal regulating plate, one side fixedly connected with push pedal of removal regulating plate, the one end fixedly connected with removal locating plate of removal regulating plate, the surface threaded connection of lead screw has the slide, one side fixedly connected with locating plate of slide.

By above-mentioned arbitrary scheme preferred, the intercommunication groove has been seted up to one side of regulating plate, locking threaded rod passes from the inside in intercommunication groove, locking threaded rod and intercommunication groove sliding connection, locking threaded rod's maximum diameter equals the width in intercommunication groove for locking threaded rod can be smooth remove.

By the above-mentioned optional scheme, it is preferable that the shape of positioning fixture block and positioning card groove is T shape, the size looks adaptation of positioning fixture block and positioning card groove for positioning fixture block can be smooth the card advance positioning card groove's inside.

By any of the above-mentioned schemes, preferably, a part of the fixed insert rod is located in the fixed spring, the fixed insert rod penetrates through the adjusting plate, the fixed insert rod is slidably connected with the adjusting plate, and the diameter of the fixed insert rod is equal to that of the fixed insert hole, so that the fixed insert rod can smoothly move and be inserted into the fixed insert hole.

By any of the above schemes, it is preferable that the movable adjusting plate is slidably connected with one sliding groove, the sliding plate is slidably connected with the other sliding groove, and the thickness of the movable adjusting plate and the thickness of the sliding plate are equal to the depth of the sliding groove, so that the movable adjusting plate and the sliding plate can smoothly move along the direction of the sliding groove.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

1. through movable plate, adjustment tank, regulating plate, locking threaded rod, butterfly nut, positioning card groove, positioning fixture block, fixed jack, L shape mounting bracket, test probe, fixed spring, pull block and fixed inserted bar's cooperation setting for this circular telegram detection device can be according to the actual size of battery two distance between the test probe, thereby can detect the work to the battery of more sizes, enlarged this circular telegram detection device's application scope, and make the installation with dismantle the operation of test probe is comparatively simple and convenient, has improved this circular telegram detection device's practicality and structural flexibility.

2. Through put thing groove, spout, lead screw, guide bar, removal regulating plate, push pedal, remove locating plate, slide and locating plate's cooperation setting, can be adjusted remove the position of locating plate and locating plate, can fix a position and fix work to not unidimensional battery to make the operation of fixed battery comparatively simple and convenient, avoided appearing the condition of battery position skew at the in-process of detection.

Drawings

FIG. 1 is a schematic view of a first view structure according to the present utility model;

FIG. 2 is a schematic view of a second view angle structure according to the present utility model;

FIG. 3 is a schematic view of the structure of the moving plate and the connecting members thereof according to the present utility model;

fig. 4 is a schematic structural view of the adjusting plate and the connecting member thereof according to the present utility model.

In the figure: the device comprises a 1-detection platform, a 2-support, a 3-electric push rod, a 4-movable plate, a 5-adjusting groove, a 6-adjusting plate, a 7-locking threaded rod, an 8-butterfly nut, a 9-positioning clamping groove, a 10-positioning clamping block, an 11-fixed jack, a 12-L-shaped mounting rack, a 13-test probe, a 14-fixed spring, a 15-pulling block, a 16-fixed inserting rod, a 17-detection switch, an 18-indicating plate, a 19-storage groove, a 20-sliding groove, a 21-lead screw, a 22-guiding rod, a 23-movable adjusting plate, a 24-push plate, a 25-movable positioning plate, a 26-sliding plate, a 27-positioning plate and a 28-communicating groove.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings, but the scope of the present utility model is not limited to the following.

As shown in fig. 1 to 4, an energization detecting device for assembling an unmanned aerial vehicle battery comprises a detecting table 1, wherein two brackets 2 are fixedly connected to one side of the detecting table 1, the brackets 2 are in inverted L shape, an electric push rod 3 is fixedly mounted on one side of each bracket 2, an output end of the electric push rod 3 is fixedly connected with a movable plate 4, an adjusting groove 5 is formed on one side of the movable plate 4 far away from the electric push rod 3, two adjusting plates 6 are slidably connected to the inner wall of the adjusting groove 5, locking threaded rods 7 are fixedly connected to one sides of the two adjusting plates 6, butterfly nuts 8 are connected to the outer surfaces of the two locking threaded rods 7 in a threaded manner, positioning clamping grooves 9 are formed on one sides of the two adjusting plates 6, positioning clamping blocks 10 are clamped on the inner walls of the two positioning clamping grooves 9, a fixing jack 11 is formed on one side of each positioning clamping block 10, the bottom sides of the two positioning clamping blocks 10 are fixedly connected with L-shaped mounting frames 12, one sides of the two L-shaped mounting frames 12 are fixedly provided with test probes 13, one sides of the two adjusting plates 6 are fixedly connected with fixed springs 14, one ends of the fixed springs 14 are fixedly connected with pull blocks 15, one sides of the pull blocks 15 close to the fixed springs 14 are fixedly connected with fixed inserting rods 16, one sides of the detection tables 1 are provided with detection switches 17 and indication plates 18, one sides of the indication plates 18 are provided with touch screens and sound alarms, when the test probes 13 are installed, the pull blocks 15 are pulled firstly to drive the fixed inserting rods 16 to move in a direction away from the adjusting plates 6, the fixed springs 14 are in a stretched state, then the positioning clamping blocks 10 are clamped into the positioning clamping grooves 9, the positions of the fixed inserting holes 11 correspond to the positions of the fixed inserting rods 16, and then the pull blocks 15 are slowly loosened, the fixed inserting rod 16 is inserted into the fixed inserting hole 11 under the reaction force of the fixed spring 14, so that the operation of installing the test probes 13 is completed, when the positions of the test probes 13 are required to be adjusted, the adjusting plate 6 is moved to drive the positioning clamping blocks 10 and the L-shaped mounting frame 12 to move, the two test probes 13 are adjusted to the proper positions according to the distance between the positive terminal and the negative terminal of the battery, then the butterfly nut 8 is rotated to be tightly attached to the adjusting plate 6, the adjusting plate 6 is fixed, and then the electric push rod 13 is started to enable the test probes 13 to move downwards and detect the battery.

As an alternative technical scheme of the utility model, two object placing grooves 19 are formed in one side of the detection table 1, two sliding grooves 20 are formed in the inner walls of the two object placing grooves 19, a lead screw 21 is rotatably connected to the inner wall of one sliding groove 20 through a bearing, a knob is fixedly connected to one end of the lead screw 21, a guide rod 22 is fixedly connected to the inner wall of the other sliding groove 20, a movable adjusting plate 23 is slidably connected to the outer surface of the guide rod 22, a push plate 24 is fixedly connected to one side of the movable adjusting plate 23, a movable positioning plate 25 is fixedly connected to one end of the movable adjusting plate 23, a sliding plate 26 is in threaded connection with the outer surface of the lead screw 21, a positioning plate 27 is fixedly connected to one side of the sliding plate 26, when the battery is fixed, the lead screw 21 is rotated first, the sliding plate 26 drives the positioning plate 27 to move, after one side of the battery is attached to the positioning plate 27, positive and negative terminals of the battery correspond to the positions of the test probes 13, and then the push plate 24 is pushed to drive the movable adjusting plate 23 to move, so that the movable positioning plate 25 is attached to the battery tightly, and the battery is fixed.

As an alternative technical scheme of the utility model, one side of the adjusting plate 6 is provided with the communication groove 28, the locking threaded rod 7 passes through the inside of the communication groove 28, the locking threaded rod 7 is in sliding connection with the communication groove 28, and the maximum diameter of the locking threaded rod 7 is equal to the width of the communication groove 28, so that the locking threaded rod 7 can smoothly move.

As an alternative technical scheme of the utility model, the shapes of the positioning clamping block 10 and the positioning clamping groove 9 are T-shaped, and the positioning clamping block 10 is matched with the positioning clamping groove 9 in size, so that the positioning clamping block 10 can be smoothly clamped into the positioning clamping groove 9.

As an alternative solution of the present utility model, a part of the fixed plunger 16 is located inside the fixed spring 14, the fixed plunger 16 penetrates the adjusting plate 6, the fixed plunger 16 is slidably connected to the adjusting plate 6, and the diameter of the fixed plunger 16 is equal to the diameter of the fixed insertion hole 11, so that the fixed plunger 16 can be smoothly moved and inserted into the inside of the fixed insertion hole 11.

As an alternative solution of the present utility model, the movable adjusting plate 23 is slidably connected to one chute 20, and the sliding plate 26 is slidably connected to the other chute 20, and the thicknesses of the movable adjusting plate 23 and the sliding plate 26 are equal to the depth of the chute 20, so that the movable adjusting plate 23 and the sliding plate 26 can smoothly move along the direction of the chute 20.

The working principle of the utility model is the same as that of a battery discharge detection device disclosed in China patent CN218767231U, and the utility model only improves the external structure thereof.

An energization detection device for unmanned aerial vehicle battery assembly, the working principle is as follows:

1) The lead screw 21 is rotated, the slide plate 26 drives the positioning plate 27 to move, and after one side of the battery is attached to the positioning plate 27, positive and negative binding posts of the battery correspond to the positions of the test probes 13;

2) Pushing the push plate 24 to drive the movable adjusting plate 23 to move, so that the movable positioning plate 25 is tightly attached to the battery, and the battery is fixed;

3) The adjusting plate 6 is moved to drive the positioning fixture block 10 and the L-shaped mounting frame 12 to move, and the two test probes 13 are adjusted to a proper position according to the distance between the positive and negative electrode binding posts of the battery;

4) The butterfly nut 8 is rotated to be tightly attached to the adjusting plate 6, so that the adjusting plate 6 is fixed;

5) The electric push rod 13 is started to enable the test probe 13 to move downwards and perform detection work on the battery.

In summary, this power on detection device for unmanned aerial vehicle battery equipment, through the cooperation setting of movable plate 4, adjustment tank 5, adjusting plate 6, locking threaded rod 7, wing nut 8, positioning card slot 9, positioning fixture 10, fixed jack 11, L shape mounting bracket 12, test probe 13, fixed spring 14, pull block 15 and fixed inserted bar 16, make this power on detection device can adjust the distance between two test probes 13 according to the actual size of battery, thereby can detect the work to the battery of more sizes, the application scope of this power on detection device has been enlarged, and make the operation of installing and dismantling test probe 13 comparatively simple and convenient, practicality and the structural flexibility of this power on detection device have been improved, through the cooperation setting of putting thing groove 19, the spout 20, the lead screw 21, guide bar 22, movable adjusting plate 23, push pedal 24, movable positioning plate 25, slide plate 26 and positioning plate 27, can be adjusted the position of movable positioning plate 25 and positioning plate 27, can fix the work to the battery of different sizes, and make the fixed battery's operation comparatively simple and convenient, the condition that the position skew appears in the battery of detecting has been avoided in the process.

Claims (6)

1. An energizing detection device for unmanned aerial vehicle battery assembly, which is characterized in that: including detecting platform (1), one side fixedly connected with two supports (2) of detecting platform (1), two equal fixed mounting in one side of support (2) has electric putter (3), the output fixedly connected with movable plate (4) of electric putter (3), regulating groove (5) have been seted up to one side that electric putter (3) was kept away from to movable plate (4), the inner wall sliding connection of regulating groove (5) has two regulating plates (6), two equal fixedly connected with locking threaded rod (7) in one side of regulating plate (6), two equal threaded connection of surface of locking threaded rod (7) has butterfly nut (8), two equal clamping groove (9) have all been seted up in one side of regulating plate (6), two equal joint in inner wall of positioning clamping groove (9) has fixture block (10), two fixed jack (11) have all been seted up in one side of positioning fixture block (10), two equal fixedly connected with L shape fixture block (12) in the bottom side of regulating plate (6), two equal threaded connection of surface of locking threaded rod (7) has butterfly nut (14) have one side of fixing spring (14) fixed connection of installing frame (14), one side of the pull block (15) close to the fixed spring (14) is fixedly connected with a fixed inserting rod (16), and one side of the detection table (1) is provided with a detection switch (17) and an indication plate (18).

2. The energization detecting apparatus for assembling an unmanned aerial vehicle battery according to claim 1, wherein: two storage tanks (19) have been seted up to one side of detecting bench (1), two spouts (20) have all been seted up to the inner wall in storage tank (19), one the inner wall of spout (20) is connected with lead screw (21) through the bearing rotation, another inner wall fixedly connected with guide bar (22) of spout (20), the surface sliding connection of guide bar (22) has removal regulating plate (23), one side fixedly connected with push pedal (24) of removal regulating plate (23), one end fixedly connected with of removal regulating plate (23) removes locating plate (25), the surface threaded connection of lead screw (21) has slide (26), one side fixedly connected with locating plate (27) of slide (26).

3. The energization detecting apparatus for assembling an unmanned aerial vehicle battery according to claim 2, wherein: a communication groove (28) is formed in one side of the adjusting plate (6), the locking threaded rod (7) penetrates through the communication groove (28), the locking threaded rod (7) is in sliding connection with the communication groove (28), and the maximum diameter of the locking threaded rod (7) is equal to the width of the communication groove (28).

4. A power-on detection device for assembling an unmanned aerial vehicle battery according to claim 3, wherein: the positioning clamping blocks (10) and the positioning clamping grooves (9) are T-shaped, and the positioning clamping blocks (10) are matched with the positioning clamping grooves (9) in size.

5. The energization detecting apparatus for assembling an unmanned aerial vehicle battery according to claim 4, wherein: a part of the fixed inserted link (16) is positioned in the fixed spring (14), the fixed inserted link (16) penetrates through the adjusting plate (6), the fixed inserted link (16) is in sliding connection with the adjusting plate (6), and the diameter of the fixed inserted link (16) is equal to that of the fixed insertion hole (11).

6. The energization detecting apparatus for assembling an unmanned aerial vehicle battery according to claim 5, wherein: the movable adjusting plate (23) is in sliding connection with one sliding groove (20), the sliding plate (26) is in sliding connection with the other sliding groove (20), and the thicknesses of the movable adjusting plate (23) and the sliding plate (26) are equal to the depth of the sliding groove (20).