CN215248090U - Automatic testing arrangement of portable power source - Google Patents

Abstract

The utility model discloses an automatic testing arrangement of portable power source, include: the board, set up a plurality of assembly lines on the board, set up in the manipulator of assembly line side and set up the bull feeding agencies on the manipulator, bull feeding agencies includes: set up and get the material support on the manipulator, set up respectively in getting the lifting module at material support both ends, set up the sucking disc support on the output of lifting module and set up a plurality of sucking discs on the sucking disc support, the lifting module at both ends drives the sucking disc support respectively and carries out up-and-down reciprocating motion. The utility model discloses a lifting module at bull feeding agencies both ends drives the sucking disc support respectively and carries out up-and-down motion to realize getting the work of material or blowing simultaneously on two different assembly lines, reduce the number of times that the manipulator removed, with this improve processing or the testing process in get the material efficiency of putting, and then improve holistic processing or efficiency of software testing, satisfy the demand that mass production detected the activity.

Description

Automatic testing arrangement of portable power source

Technical Field

The utility model relates to a portable power source production detects technical field, especially relates to an automatic testing arrangement of portable power source.

Background

The portable power source, also known as a power bank, is a portable charger which can be carried about, can store electric energy and charge electronic products of handheld mobile equipment, and is particularly applied to occasions without external power supply. The main components of the device comprise: a built-in battery for electric energy storage, a circuit for stabilizing an output voltage, and a charging circuit for charging the built-in battery. In the production and the testing process of portable power source, in order to reduce manual operation, reduce operating personnel's working strength to improve production and detection efficiency, the work of production and detection is realized to the automation equipment that drops into mostly in the present trade. In automated equipment, robots are typically used to pick up the corresponding products or parts from the production line and then move the products or parts to a production or testing station for associated processing or inspection. However, the manipulator can only pick up one product at a time, which is inefficient and not beneficial to the requirement of mass production and detection.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, provide an automatic testing arrangement of portable power source.

The technical scheme of the utility model as follows: the utility model provides a portable power source automation testing arrangement, includes: the board, set up in a plurality of assembly lines on the board, set up in the manipulator of assembly line side and set up in bull extracting mechanism on the manipulator, bull extracting mechanism includes: set up in get on the manipulator material support, set up respectively in get the lifting module at material support both ends, set up in get the sucking disc support on the output of lifting module and set up in a plurality of sucking discs on the sucking disc support, both ends the lifting module drives the sucking disc support respectively and carries out up-and-down reciprocating motion.

Furthermore, the suckers are distributed on the sucker bracket in a triangular mode.

Further, the sucking disc support corresponds the sucking disc and is provided with a plurality of bar mounting holes, the sucking disc sets up in the bar mounting hole.

Furthermore, a navigation positioning module is arranged on the sucker support, and the other end of the navigation positioning module is arranged on the lifting module.

Further, the lifting module is a cylinder.

According to the above technical scheme, the utility model discloses a lifting module at bull extracting mechanism both ends drives the sucking disc support respectively and carries out up-and-down motion to realize getting the work of material or blowing simultaneously on two different assembly lines, reduce the number of times that the manipulator removed, with this improve processing or the testing process get in put the material efficiency, and then improve holistic processing or efficiency of software testing, satisfy the demand that mass production detected the activity.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, the present invention provides an automatic testing device for a mobile power supply, including: the machine comprises a machine table, a plurality of assembly lines arranged on the machine table, a manipulator arranged beside the assembly lines, and a multi-head material taking mechanism 1 arranged on the manipulator. The multi-head material taking mechanism 1 comprises: set up in get on the manipulator material support 11, set up respectively in get the lifting module 12 at material support 11 both ends, set up in sucking disc support 13 on the output of lifting module 12 and set up in a plurality of sucking discs 14 on sucking disc support 13. The lifting modules 12 at the two ends respectively drive the sucker support 13 to reciprocate up and down.

Under the condition that two adjacent assembly lines are respectively used for feeding and discharging, products are conveyed into the testing equipment through the assembly lines, and then the multi-head material taking mechanism 1 is moved to the position above the assembly lines for feeding through the mechanical arm. The lifting module 12 on one side of the material taking bracket 11 drives the suction cup bracket 13 to move downwards, and products on the production line are picked up through the suction cups 14. After the product is picked up by the manipulator, the product is moved to a processing area or a detection area, when the product is placed, the lifting module 12 on the other side of the material taking support 11 drives the suction cup support 13 to move downwards, and the product which is processed or detected is picked up through the suction cup 14. At this time, the production line for feeding sends the product to the side of the manipulator. The manipulator moves the multi-head material taking mechanism 1 to the upper part of the production line, so that the suckers 14 at the two ends of the material taking support 11 respectively correspond to the material feeding production line and the material discharging production line, the machined or detected products are placed on the material discharging production line while the materials are taken, the moving times of the manipulator are reduced, and the overall production and detection efficiency are improved.

Under two adjacent assembly lines all were used for material loading or unloading the condition, removed bull extracting mechanism 1 to the assembly line top through the manipulator for the both ends of getting material support 11 correspond with two adjacent assembly lines respectively, thereby get the work of material or blowing in step, in order to improve whole production and detection efficiency.

The sucking discs 14 are distributed on the sucking disc support 13 in a triangular mode, so that the picking effect of the multi-head material taking mechanism 1 on products can be improved, the stability of the products in picking up is improved, and the products are prevented from falling off from the sucking discs due to unbalanced stress in the moving process.

The sucking disc support 13 is provided with a plurality of bar mounting holes 131 corresponding to the sucking disc 14, the sucking disc 14 sets up in bar mounting holes 131. Through changing the position of sucking disc 14 in bar mounting hole 131, change the relative distance between the adjacent sucking disc 14 to the material demand of getting of the product of adaptation different specification models improves the stability that testing arrangement picked up the product.

And a navigation positioning module 121 is arranged on the sucker support 13, and the other end of the navigation positioning module 121 is arranged on the lifting module 12. Navigation positioning module 121 provides guiding orientation for reciprocating of sucking disc support 13 to improve sucking disc support 13 and carry out the stability of motion under the drive of lifting module 12, in order to guarantee to get the material effect.

The lifting module 12 is a cylinder. The air cylinder is simple in principle and structure, easy to install and maintain, low in requirement on a user, and suitable for installation and use requirements of mass production.

To sum up, the utility model discloses a lifting module at bull extracting mechanism both ends drives the sucking disc support respectively and carries out up-and-down motion to realize getting the work of material or blowing simultaneously on two different assembly lines, reduce the number of times that the manipulator removed, with this improve processing or the testing process get in put the material efficiency, and then improve holistic processing or efficiency of software testing, satisfy mass production and detect the demand of activity.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. The utility model provides an automatic testing arrangement of portable power source which characterized in that includes: the board, set up in a plurality of assembly lines on the board, set up in the manipulator of assembly line side and set up in bull extracting mechanism on the manipulator, bull extracting mechanism includes: set up in get on the manipulator material support, set up respectively in get the lifting module at material support both ends, set up in get the sucking disc support on the output of lifting module and set up in a plurality of sucking discs on the sucking disc support, both ends the lifting module drives the sucking disc support respectively and carries out up-and-down reciprocating motion.

2. The automated testing device for the mobile power supply of claim 1, wherein the suckers are distributed on the sucker bracket in a triangular manner.

3. The automatic testing device for the mobile power supply according to claim 1, wherein the sucker bracket is provided with a plurality of strip-shaped mounting holes corresponding to the suckers, and the suckers are arranged in the strip-shaped mounting holes.

4. The automatic testing device for the mobile power supply according to claim 1, wherein a navigation positioning module is disposed on the suction cup support, and the other end of the navigation positioning module is disposed on the lifting module.

5. The automated testing device of claim 1, wherein the lifting module is a pneumatic cylinder.

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