CN212550587U - Automatic detection and sorting assembly line for power supply assemblies of electric vehicles - Google Patents

Abstract

The utility model relates to an automatic detection and sorting assembly line of an electric vehicle power supply assembly, which is applied to the technical field of power supply detection and sorting devices and solves the technical problems of high labor intensity and low efficiency caused by manual detection, which comprises a conveying device, a first conveyor belt component and a second conveyor belt component which are positioned at the tail end of the conveying device, the conveying device is provided with a first baffle corresponding to the first conveying belt component and a second baffle corresponding to the second conveying belt component, a bracket is arranged above the first baffle, a tester and a driving piece which automatically inserts a lead on the tester on an electrode of the storage battery are arranged on the bracket, the first baffle is connected to the support in a sliding mode, and the conveying device is provided with a first pushing device used for pushing qualified storage batteries to the first conveying belt assembly and a second pushing device used for pushing unqualified storage batteries to the second conveying belt assembly. The utility model discloses have and replace artifical the detection battery through equipment to have the effect that practices thrift the labour and improve the efficiency.

Description

Automatic detection and sorting assembly line for power supply assemblies of electric vehicles

Technical Field

The utility model relates to a power detects sorting unit's technical field, more specifically says, it relates to an electric motor car power supply module automated inspection selects separately assembly line.

Background

The electric motor car is as the instrument of the transportation that masses were used commonly, and very convenient, the battery provides kinetic energy for the electric motor car as the power of electric motor car, along with the development of battery, the duration of a journey ability of present electric motor car has also obtained very big promotion. However, the existing storage battery is detected in the production process, the voltage, the electric quantity and the like of the storage battery are detected, and the storage battery is ensured to be qualified.

The existing detection mode is that the storage battery is manually connected with an electric signal of a testing instrument, and the performance of the storage battery is analyzed through the instrument. However, the manual labor is large, the lead is continuously plugged into the storage battery, the storage battery which is unqualified is required to be selected independently, and the labor is wasted.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide an electric motor car power supply module automated inspection selects separately assembly line, its advantage, more convenient detects and sorts the battery.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides an electric motor car power supply module automated inspection selects separately assembly line, includes conveyor, is located the terminal first conveyer belt subassembly and the second conveyer belt subassembly of conveyor, last first conveyer belt subassembly that corresponds of conveyor sets up first baffle, corresponds second conveyer belt subassembly and sets up the second baffle, the top of first baffle sets up the support, install the tester on the support and with the automatic driving piece of pegging graft on the electrode of battery of wire on the tester, first baffle slides and connects on the support, conveyor is last to be equipped with and is used for the first pusher on the first conveyer belt subassembly of qualified battery propelling movement and the second pusher on the second conveyer belt subassembly of unqualified battery propelling movement.

The effect that above-mentioned setting reached: the storage batteries are placed on the conveying device, and when the conveying device drives the storage batteries to move to the position of the first baffle, the storage batteries cannot move continuously; the driving piece automatically inserts a lead on the tester on the storage battery, the tester automatically detects the storage battery, and the first pushing device pushes the qualified storage battery to the first conveyor belt assembly after the storage battery is qualified; after the batteries are unqualified, the first baffle slides, so that the unqualified batteries move to the position of the second baffle along the conveying device and are pushed onto the second conveyor belt assembly by the second pushing device. The automatic detection and the automatic sorting of the storage battery are realized, the existing manual detection is replaced, the manual labor amount is reduced, and the detection efficiency is improved.

Further setting: the support is provided with a sliding rod in a sliding mode in the horizontal direction, the sliding rod is provided with a plurality of sliding blocks in a sliding mode, the driving piece is fixed to the sliding blocks, and the sliding blocks are connected with locking nails used for fixing the sliding blocks to the sliding rods in a threaded mode.

The effect that above-mentioned setting reached: different batteries, the electrode position on the battery is also different, and the position of driving piece can be adjusted, can detect the battery of different grade type, improves the commonality of using.

Further setting: the both ends of slide bar are equipped with the slide, the slide slides and connects on the support, threaded connection has the spacing nail that is used for spacing slide on the slide.

The effect that above-mentioned setting reached: the slide bar can slide, further adjusts the position of driving piece, ensures that the driving piece can aim at the electrode position of battery.

Further setting: the support is fixedly provided with a lifting cylinder used for driving the first baffle to move up and down, and when the storage battery is unqualified in inspection, the lifting cylinder drives the baffle to move up, so that the storage battery is in contact with the second baffle.

The effect that above-mentioned setting reached: the lifting cylinder is used for driving the first baffle to automatically lift.

Further setting: first pusher includes the propelling movement cylinder and fixes the push pedal on the piston rod of propelling movement cylinder, and after the battery contacted with first baffle to when the inspection was qualified, the propelling movement cylinder drive push pedal for the battery slides on the first conveyer belt subassembly.

The effect that above-mentioned setting reached: the first pushing device is used for pushing the qualified storage batteries out of the conveying device and enabling the qualified storage batteries to enter the first conveying belt assembly, and therefore the qualified storage batteries are selected from the conveying device.

Further setting: the first pushing device and the second pushing device are identical in structure.

The effect that above-mentioned setting reached: the first pushing device and the second pushing device are identical in structure, unified processing and manufacturing are facilitated, and manufacturing cost is reduced.

Further setting: and the feeding end of the conveying device is provided with a mechanical arm device used for conveying the storage battery to be detected to the conveying device.

The effect that above-mentioned setting reached: the mechanical arm is used for replacing manual work to convey the storage battery to the conveying device in order.

Further setting: the driving piece is a driving cylinder, and one end of the wire is fixed on a piston rod of the driving cylinder.

The effect that above-mentioned setting reached: when a piston rod of the driving cylinder extends, a lead is driven to be connected to an electrode of the storage battery; when the piston rod of the driving cylinder retracts, the lead is driven to be separated from the storage battery, and the effect of automatically connecting the lead to the storage battery is achieved.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the automation degree is high, and the amount of manual labor is reduced;

2. the detection can be continuously carried out without stopping, and the detection efficiency is improved.

Drawings

Fig. 1 is an overall configuration diagram of a front side view of the present embodiment;

FIG. 2 is a schematic view of the overall structure of the rear view angle of the present embodiment;

fig. 3 is a schematic structural view of the first pushing device and the conveying device of the present embodiment;

fig. 4 is a schematic diagram showing an adjustment structure of the driving member of the present embodiment.

In the figure: 1. a conveying device; 10. a belt; 11. a fixed mount; 12. a drive roll; 13. a driven roller; 14. a first baffle plate; 15. a second baffle; 2. a first conveyor assembly; 3. a second conveyor belt assembly; 40. a first pushing device; 41. a push cylinder; 42. pushing the plate; 43. a second pushing device; 51. a support; 52. a drive member; 53. a slide bar; 54. a slider; 541. locking nails; 55. a slide base; 551. a limit pin; 56. a lifting cylinder; 57. a tester; 6. a robotic arm assembly.

Detailed Description

The present invention will be further described with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Example 1: referring to fig. 1 and 2, the automatic detection and sorting assembly line for the power supply modules of the electric vehicle comprises a conveying device 1, a first conveyor belt module 2 and a second conveyor belt module 3 which are positioned at the tail end of the conveying device 1, wherein the first conveyor belt module 2 and the second conveyor belt module 3 are arranged in a direction perpendicular to the conveying device 1, and a storage battery is conveyed from the front end of the conveying device 1 to the tail end of the conveying device 1. The conveyor 1 is provided with a first baffle 14 at a position corresponding to the first conveyor belt assembly 2 and a second baffle 15 at a position corresponding to the second conveyor belt assembly 3. The support 51 is arranged above the first baffle plate 14, the tester 57 and the driving part 52 for automatically inserting a lead on the tester 57 into an electrode of the storage battery are arranged on the support 51, the driving part 52 can be a driving air cylinder and a hydraulic cylinder, the first baffle plate 14 is connected onto the support 51 in a sliding mode, and the conveying device 1 is provided with a first pushing device 40 for pushing qualified storage batteries onto the first conveyor belt assembly 2 and a second pushing device 43 for pushing unqualified storage batteries onto the second conveyor belt assembly 3.

Referring to fig. 1 and 2, a plurality of storage batteries are placed on the conveying device 1, and when the conveying device 1 drives the storage batteries to move to the position of the first baffle 14, the storage batteries cannot move continuously; then, the driving part 52 automatically inserts the lead on the tester 57 into the storage battery, the tester 57 automatically detects the storage battery, and after the storage battery is qualified, the first pushing device 40 pushes the qualified storage battery to the first conveyor belt assembly 2; after the inspection is rejected, the first flap 14 is slid upwards, and the first flap 14 is displaced from the batteries, so that the rejected batteries are moved along the conveyor 1 to the position of the second flap 15 and are pushed by the second pushing device 43 onto the second conveyor assembly 3.

Referring to fig. 1 and 2, the conveying device 1, the first conveyor belt assembly 2 and the second conveyor belt assembly 3 have the same structure, the conveying device 1 includes a fixing frame 11, a driving roller 12 and a driven roller 13 rotatably connected to two ends of the fixing frame 11, and a belt 10 sleeved on the driving roller 12 and the driven roller 13, a motor is fixedly arranged on the fixing frame 11, and the motor is used for driving the driving roller 12 to rotate.

Example 2: referring to fig. 1, a robotic arm device 6 is arranged at the front end of the conveying device 1, and the robotic arm device 6 is used for neatly conveying the storage batteries to be detected onto the conveying device 1 instead of manually, so as to ensure that all the storage batteries are on the same straight line.

Referring to fig. 3 and 4, a sliding rod 53 with a square cross section is arranged on the bracket 51 along a direction perpendicular to the conveying device 1, two sliding blocks 54 are arranged on the sliding rod 53 in a sliding manner, the driving element 52 is fixed on the sliding blocks 54, and a locking nail 541 used for fixing the sliding blocks 54 on the sliding rod 53 is connected to the sliding blocks 54 in a threaded manner. The position of the poles on the batteries is also different for different batteries, and the position of the actuator 52 can be adjusted, thus ensuring that the position of the actuator 52 corresponds to the pole position of the battery. Slide 55 is fixedly arranged at two ends of the slide bar 53, the slide 55 is connected to the bracket 51 in a sliding manner along the length direction of the conveying device 1, a limit nail 551 is connected to the slide 55 in a threaded manner, and the limit nail 551 is used for fixing the slide 55 on the slide bar 53, so that the position of the driving piece 52 is further adjusted.

Referring to fig. 3 and 4, a lifting cylinder 56 is arranged on the first baffle plate 14, the body of the lifting cylinder 56 is fixed on the support 51, the piston rod of the lifting cylinder 56 is fixed on the first baffle plate 14, and after the storage battery is unqualified in inspection, the lifting cylinder 56 automatically drives the first baffle plate 14 to move upwards and stagger with the storage battery, so that the unqualified storage battery flows to the position of the second baffle plate 15.

Referring to fig. 2 and 3, the first pushing device 40 and the second pushing device 43 have the same structure. The first pushing device 40 comprises a pushing cylinder 41 fixed on the conveying device 1 and a pushing plate 42 fixed on the pushing cylinder 41, wherein the pushing cylinder 41 is horizontally arranged. After the storage battery is contacted with the first baffle 14 and is qualified in inspection, the pushing cylinder 41 drives the pushing plate 42, so that the storage battery slides onto the first conveyor belt assembly 2, and the qualified storage battery is selected from the conveying device 1. After the accumulator is contacted with the first baffle 14 and when the accumulator is not qualified, the accumulator is contacted with the second baffle 15, and the second pushing device 43 pushes the unqualified accumulator to the second conveyor belt component 3, so that the unqualified accumulator is selected from the conveyor device 1.

The implementation principle of the above embodiment is as follows: a plurality of storage batteries are placed on the conveying device 1, and when the conveying device 1 drives the storage batteries to move to the position of the first baffle 14, the storage batteries cannot move continuously; then, the driving part 52 automatically inserts the lead on the tester 57 into the storage battery, the tester 57 automatically detects the storage battery, and after the storage battery is qualified, the first pushing device 40 pushes the qualified storage battery to the first conveyor belt assembly 2; after the inspection is rejected, the first flap 14 is slid upwards, and the first flap 14 is displaced from the batteries, so that the rejected batteries are moved along the conveyor 1 to the position of the second flap 15 and are pushed by the second pushing device 43 onto the second conveyor assembly 3.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be considered as the protection scope of the present invention.

Claims (8)

1. The utility model provides an electric motor car power supply module automated inspection selects separately assembly line which characterized in that: comprises a conveying device (1), a first conveyor belt component (2) and a second conveyor belt component (3) which are positioned at the tail end of the conveying device (1), a first baffle (14) is arranged on the conveying device (1) corresponding to the first conveyor belt component (2), a second baffle (15) is arranged on the conveying device corresponding to the second conveyor belt component (3), a bracket (51) is arranged above the first baffle (14), a tester (57) and a driving piece (52) for automatically inserting a lead on the tester (57) on an electrode of a storage battery are arranged on the bracket (51), the first baffle (14) is connected to the support (51) in a sliding mode, and a first pushing device (40) used for pushing qualified storage batteries to the first conveyor belt assembly (2) and a second pushing device (43) used for pushing unqualified storage batteries to the second conveyor belt assembly (3) are arranged on the conveying device (1).

2. The automatic detection and sorting assembly line for power supply modules of electric vehicles according to claim 1, wherein: the support (51) are gone up and are slided along the horizontal direction and be equipped with slide bar (53), slide bar (53) are slided upward and are equipped with a plurality of sliders (54), driving piece (52) are fixed on slider (54), threaded connection has lock pin (541) that are used for fixing slider (54) on slide bar (53) on slider (54).

3. The automatic detection and sorting assembly line for power supply modules of electric vehicles according to claim 2, wherein: slide (55) are arranged at two ends of the slide rod (53), the slide (55) is connected to the support (51) in a sliding manner, and a limit nail (551) for limiting the slide (55) is connected to the slide (55) in a threaded manner.

4. The automatic detection and sorting assembly line for power supply modules of electric vehicles according to claim 1, wherein: and a lifting cylinder (56) for driving the first baffle (14) to move up and down is fixedly arranged on the support (51), and when the storage battery is unqualified in inspection, the lifting cylinder (56) drives the baffle to move up, so that the storage battery is contacted with the second baffle (15).

5. The automatic detection and sorting assembly line for power supply modules of electric vehicles according to claim 1, wherein: the first pushing device (40) comprises a pushing air cylinder (41) and a pushing plate (42) fixed on a piston rod of the pushing air cylinder (41), and when the storage battery is in contact with the first baffle (14) and is qualified in inspection, the pushing air cylinder (41) drives the pushing plate (42) to enable the storage battery to slide onto the first conveyor belt assembly (2).

6. The automatic detection and sorting assembly line for power supply modules of electric vehicles according to claim 1, wherein: the first pushing device (40) and the second pushing device (43) are identical in structure.

7. The automatic detection and sorting assembly line for power supply modules of electric vehicles according to claim 1, wherein: and a mechanical arm device (6) used for conveying the storage battery to be detected to the conveying device (1) is arranged at the feeding end of the conveying device (1).

8. The automatic detection and sorting assembly line for power supply modules of electric vehicles according to claim 1, wherein: the driving part (52) is a driving cylinder, and one end of a lead is fixed on a piston rod of the driving cylinder.

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