Automatic antibiotic bottle cap detection equipment

Abstract

The invention relates to the technical field of medical instruments, and particularly discloses an automatic antibiotic bottle cap detection device, comprising a feeding mechanism, a vibration mechanism, a first conveying mechanism, a first detecting mechanism, a second detecting mechanism, a turning mechanism, a second conveying mechanism and a third detecting mechanism, wherein the feeding mechanism comprises a buffer plate, a vibration motor, a vibration plate, a contact rod and an inductor; the vibration mechanism comprises a first spiral conveying plate, a second spiral conveying plate, athird spiral conveying plate, a first steering track, a second steering track and a third steering track; the first detecting mechanism comprises a first light source and a first camera; the second detecting mechanism comprises a square fixed frame, a second light source, a fixed rod and a second camera; and the third detecting mechanism comprises a three camera and a third light source; the turning mechanism comprises a semi-closed sleeve, a torsion bar and a U-shaped buckle. The automatic antibiotic bottle cap detection device has the characteristics that the output can be adjusted, the positive and negative adjustments are unified, the transportation is not disturbed, the equipment cost is low, and the detection efficiency is high.

Description

technical field [0001] The invention relates to the technical field of medical devices, in particular to an automatic detection device for antibiotic bottle caps. Background technique [0002] At present, the bottle caps used for antibiotic bottles are aluminum-plastic composite caps. The country has regulations on the standards for aluminum-plastic composite caps. In order to detect whether the produced aluminum-plastic composite caps meet the standards, a detection system is required. A complete set The detection system will include parts such as feeding, adjustment, conveying, detection and output; the existing feeding mechanism only uses the structure of a hopper, a vibrating motor and a vibrating plate, pours the aluminum-plastic composite cover into the hopper, and vibrates The vibration of the motor sends the aluminum-plastic combined cap out of the vibrating plate. The problem with this feeding mechanism is that it can only simply output the aluminum-plastic combined...

AI Technical Summary

Problems solved by technology

[0002] At present, the bottle caps used for antibiotic bottles are aluminum-plastic composite caps. The country has regulations on the standards for aluminum-plastic composite caps. In order to detect whether the produced aluminum-plastic composite caps meet the standards, a detection system is required. A complete set The detection system will include parts such as feeding, adjustment, conveying, detection and output; the existing feeding mechanism only uses the structure of a hopper, a vibrating motor and a vibrating plate, pours the aluminum-plastic composite cover into the hopper, and vibrates The vibration of the motor sends the aluminum-plastic combined cap out of the vibrating plate. The problem with this feeding mechanism is that it can only simply output the aluminum-plastic combined cap in the hopper, but the output cannot be adjusted. The aluminum-plastic composite cover directly reaches the vibrating plate. Once the vibrating plate starts to vibrate, the aluminum-plastic composite cover directly enters the subsequent equipment in batches, without considering the processing capacity of the subsequent equipment, which will lead to excessive input and affect the work of the subsequent equipment; The existing adjustment mechanism only uses a vibration mechanism, so that the aluminum-plastic composite covers are output from the track one by one, and the aluminum-plastic composite covers are arranged in order in the track and output one by one, but the aluminum-plastic composite covers that enter the track often have positive Conversely, it is uneven, which has a negative impact on the subsequent detection operations and affects the detection effect; the existing conveying mechanism only uses the cooperation of the driving motor, driving wheel, driven wheel and conveyor belt to transport the aluminum-plastic composite cover. However, due to the light weight of the aluminum-plastic composite cap, the transportation of the aluminum-plastic composite cap on the conveyor belt is easily disturbed by the outside world, and cannot reach the best detection position of the detection mechanism, which affects the accuracy of the aluminum-plastic composite cap. Detection effect: Existing inspection institutions usually detect the front, back and side of the aluminum-plastic composite cover separately, and three testing equipment are needed, resulting in high equipment costs. The detection of the entire aluminum-plastic composite cover The efficiency is low; the output of the aluminum-plastic composite cap after the existing detection is completed is directly sent out from the output end of the conveyor belt to the collection box, and the number of qualified aluminum-plastic composite caps after the detection cannot be counted, which is not conducive to subsequent collection Statistics on the number of qualified aluminum-plastic composite covers in the box

[0003] Therefore, the existing detection of bottle caps for antibiotic bottles has problems such as the output cannot be adjusted, the positive and negative adjustments are not uniform, the transportation is easily disturbed, the equipment cost is high, and the detection efficiency is low.

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