CN220054499U - Laboratory is with information acquisition ware inspection subsides mark device - Google Patents

Abstract

The utility model discloses a laboratory information collector inspection labeling device, which comprises a detection workbench, wherein the front end of the detection workbench is provided with a power mechanism, and the upper end of the detection workbench is provided with a placement transmission mechanism and a detection mechanism; according to the utility model, by arranging the photoelectric integrated detection head, the detection adjustment track, the electromagnet, the servo electric signal output block and the response sliding shaft, the efficiency and the reliability of the label-sticking antenna label position detection and identification work are improved, and the detection application specification range is improved; through setting up and placing the strip piece, the transmission band, the transmission roller, transmission motor and electric capacity storage alignment board, can utilize the antenna conduction disqualification that places on placing the strip piece to remain electric signal to electric capacity storage alignment board, automatic detection line's controllability and wholeness have been improved when labeling antenna transmission detects, have improved labeling antenna disqualification screening and have rejected informatization and degree of automation that detects.

Description

Laboratory is with information acquisition ware inspection subsides mark device

Technical Field

The utility model relates to the field of antenna correlation, in particular to an information collector inspection labeling device for a laboratory.

Background

After purchasing information collectors such as antennas and other equipment in a laboratory, the laboratory needs to specially carry out warehouse-in detection, then carries out labeling treatment on the information collectors, and further facilitates subsequent management and use, but the antennas are small in size and difficult to take and paste, meanwhile, when the labels are pasted, the labels are difficult to paste to the same positions of the antennas, if the labels cannot be pasted neatly, the labels are wasted, and a great amount of time is wasted for re-pasting;

in this regard, chinese patent publication No. CN215852337U discloses an antenna labeling fixture, which includes a base plate, an operation plate and a limiting plate, where the operation plate is rotatably and adjustably connected to the base plate through a rotation assembly, the limiting plate is slidably connected to the operation plate through a sliding assembly, the upper surface of the operation plate forms an operation surface, a fixing slot for fixing an antenna is formed on the operation surface, a limiting opening for limiting a labeling position is formed on the limiting plate, the limiting plate is slid, the limiting opening can move in a direction relatively close to or far from the fixing slot, and when the limiting opening slides to above the fixing slot, the limiting opening and the fixing slot can be kept relatively fixed;

however, in the patent of the utility model, the position of the label is limited by the limit opening, but the label is still not positioned at the same time when the mounting precision is insufficient or the structure of the device is loose due to the cooperation of the structures such as the dismounting groove, the blocking groove and the like, and the device structure lacks a functional component for detecting the label position.

Disclosure of Invention

The utility model aims to provide a laboratory information collector inspection labeling device so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the laboratory information collector inspection labeling device comprises a detection workbench, wherein a power mechanism is arranged at the front end of the detection workbench, and a placement transmission mechanism and a detection mechanism are arranged at the upper end of the detection workbench;

the power mechanism can bear the movement of the labeling antenna to stop for detection, the placing and transmitting mechanism can clamp and fill the finished labeling antenna, and the detecting mechanism can adjust the detecting amplitude for detecting the labeling antenna.

The power mechanism comprises two groups of bilaterally symmetrical transmission mounting frames fixedly connected to the upper end face of the detection workbench, one transmission roller shaft is rotatably connected to the upper end of each group of transmission mounting frames, and a transmission belt is rotatably connected to the two transmission roller shafts;

the end face of the transmission belt is connected with a group of uniformly distributed placing bar blocks in a sliding manner, and each placing bar block is internally provided with a placing groove;

and the front end surface of each placement bar block is rotationally connected with a capacitor storage alignment plate, and the position of each capacitor storage alignment plate corresponds to the placement groove at the same position.

The device is beneficial in that the placement and transmission mechanism comprises a motor base fixedly connected with the front end face of the detection workbench, a transmission motor is fixedly connected with the upper end face of the motor base, and the front end face of the transmission motor is in power connection with the transmission roller shaft positioned on the right side.

The detection mechanism comprises a detection installation frame fixedly connected to the upper end face of the detection workbench, a detection adjustment track is fixedly connected to the upper end of the detection installation frame, and two photoelectric integrated detection heads which are symmetrical front and back are connected to the lower end face of the detection adjustment track in a sliding manner;

the front end face of the detection mounting frame is fixedly connected with an electromagnet, the front end of the electromagnet is connected with a response sliding shaft in a sliding manner, the front end face of the response sliding shaft is fixedly connected with a servo electric signal output block, the front end face of the electromagnet is fixedly connected with a recovery spring, and the front end of the recovery spring is fixedly connected with the servo electric signal output block;

the servo electric signal output block can send out photoelectric converted electronic signals of corresponding detection results.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model can adjust the positions of the two photoelectric integrated detection heads on the detection adjustment track by arranging the photoelectric integrated detection heads, the detection adjustment track, the electromagnet, the servo electric signal output block and the response sliding shaft, is suitable for detection of labeling antennas with different specifications, and can obtain unqualified labeling antenna electric signals through computer vision auxiliary detection on image signals collected by the photoelectric integrated detection heads, thereby controlling the driving electromagnet to start and drive the unqualified antennas which are detected by sliding contact of the servo electric signal output block on the response sliding shaft to conduct and retain electronic information signals, improving the efficiency and reliability of labeling antenna labeling position detection and identification work, and improving the detection application specification range;

through setting up and placing strip piece, transmission band, transmission roller, transmission motor and electric capacity storage alignment board, can be when transmission motor drives the transmission roller and rotate the label antenna continuous transmission who transmits on the transmission band to the testing position to utilize the antenna conduction disqualification that places on placing the strip piece to remain electric signal to electric capacity storage alignment board, improved controllability and the wholeness of automatic detection line when labeling antenna transmission detects, improved the inequality screening of labeling antenna and rejected informatization and the degree of automation that detects.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the overall structure of the present utility model;

FIG. 3 is a right side view of the illustration of FIG. 2 in accordance with the present utility model;

FIG. 4 is a schematic top view of FIG. 2 in accordance with the present utility model;

FIG. 5 is a schematic cross-sectional view of A-A of FIG. 2 in accordance with the present utility model;

FIG. 6 is an enlarged partial schematic view of the electromagnet of FIG. 5 in accordance with the present utility model;

fig. 7 is an enlarged view of a portion of the present utility model at the location of the bar block of fig. 5.

In the figure: 11. a power mechanism; 12. placing a transmission mechanism; 13. a detection mechanism; 15. a detection workbench; 16. a motor base; 17. a transmission motor; 18. a transmission mounting frame; 19. a conveying roller shaft; 20. placing a bar; 21. a servo electric signal output block; 22. an electromagnet; 23. a photoelectric integrated detection head; 24. detecting an adjustment track; 25. detecting a mounting frame; 26. responding to the sliding shaft; 27. a restoring spring; 28. a placement groove; 29. a capacitive storage alignment plate; 30. a conveyor belt.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1:

referring to fig. 1-7, the present utility model provides a technical solution: the laboratory information collector inspection labeling device comprises a detection workbench 15, wherein a power mechanism 11 is arranged at the front end of the detection workbench 15, and a placement transmission mechanism 12 and a detection mechanism 13 are arranged at the upper end of the detection workbench 15;

the power mechanism 11 can bear the movement of the labeling antenna to stop for detection, the placing and transmitting mechanism 12 can clamp and fill the finished labeling antenna, and the detecting mechanism 13 can adjust the detecting amplitude for detecting the labeling antenna.

The power mechanism 11 comprises two groups of bilaterally symmetrical transmission mounting frames 18 fixedly connected to the upper end face of the detection workbench 15, one transmission roll shaft 19 is rotatably connected to the upper end of each group of transmission mounting frames 18, and a transmission belt 30 is rotatably connected to the two transmission roll shafts 19;

the upper end face of the conveying belt 30 is in sliding connection with a group of uniformly distributed placing bar blocks 20, and each placing bar block 20 is internally provided with a placing groove 28;

a capacitor storage alignment plate 29 is rotatably connected to the front end face of each placement bar 20, and the position of each capacitor storage alignment plate 29 corresponds to the placement groove 28 at the same position.

The placing and conveying mechanism 12 comprises a motor base 16 fixedly connected to the front end face of the detection workbench 15, a conveying motor 17 is fixedly connected to the upper end face of the motor base 16, and the front end face of the conveying motor 17 is in power connection with a conveying roller shaft 19 located on the right side.

The detection mechanism 13 comprises a detection installation frame 25 fixedly connected to the upper end face of the detection workbench 15, a detection adjustment rail 24 is fixedly connected to the upper end of the detection installation frame 25, and two photoelectric integrated detection heads 23 which are symmetrical front and back are connected to the lower end face of the detection adjustment rail 24 in a sliding manner;

the front end face of the detection mounting frame 25 is fixedly connected with an electromagnet 22, the front end of the electromagnet 22 is slidably connected with a response sliding shaft 26, the front end face of the response sliding shaft 26 is fixedly connected with a servo electric signal output block 21, the front end face of the electromagnet 22 is fixedly connected with a recovery spring 27, and the front end of the recovery spring 27 is fixedly connected with the servo electric signal output block 21;

the servo electric signal output block 21 can send out an electric signal of photoelectric conversion of the corresponding detection result.

Working principle:

when the automatic labeling device is used, the heights of external continuous conveying equipment such as a conveyor belt for receiving and outputting the transmitted placement bar 20 at the left end and the right end of the conveyor belt 30 are adjusted to proper positions, then antennas are orderly placed into the independent placing grooves 28, and when the automatic labeling device is filled, one section of the antennas is placed against the surface of the capacitor storage alignment plate 29 to be in uniform length, so that errors generated by the detection position when the conveyor belt 30 conveys and transmits are kept to be minimum, the conveyor motor 17 is started to drive the conveying roller shaft 19 to rotate under the assistance of the equipment for external receiving and placing, the placement bar 20 and the capacitor storage alignment plate 29 are driven to integrally move beyond the lower part of the detection position, and the labeling antenna to be detected is continuously driven to move beyond the detection position;

when the labeled antenna is detected, the relative sliding distance of the two photoelectric integrated detection heads 23 and the position of the two photoelectric integrated detection heads stopping on the detection adjustment track 24 are adjusted on the detection adjustment track 24, then the computer vision auxiliary sensing detection is carried out on the labeled antenna label covering position passing by the lower side of the detection adjustment track 24, and when the labeled antenna position is accurate, the transmission motor 17 is continuously started to drive the conveying of the placement bar 20 to continuously run;

when the photoelectric integrated detection head 23 detects that the antenna is wrong in labeling position through computer vision and sensing, the photoelectric integrated detection head 23 controls the starting electromagnet 22, then the servo electric signal output block 21 moves leftwards under the action of the electromagnet 22 to be close to a labeling antenna, so that a sensing electric information signal processed by the photoelectric integrated detection head 23 is converted into an electric signal and is connected to the servo electric signal output block 21 through a wire, when the servo electric signal output block 21 contacts the antenna, the antenna is driven to move in the placing groove 28, the placing bar 20 enables the other end to rotate and connect with the surface of the capacitor storage alignment plate 29, the capacitor storage alignment plate 29 obtains and stores the electric signal conducted by the antenna stored in the placing groove 28, and therefore the antenna with disqualified labeling can be conveniently screened and removed after conveying is finished.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Laboratory is with information acquisition ware inspection subsides mark device, including detecting workstation (15), its characterized in that: the front end of the detection workbench (15) is provided with a power mechanism (11), and the upper end of the detection workbench (15) is provided with a placement transmission mechanism (12) and a detection mechanism (13);

the power mechanism (11) can bear the movement of the labeling antenna to stop for detection, the placing and transmitting mechanism (12) can clamp and fill the finished labeling antenna, and the detecting mechanism (13) can adjust the detecting amplitude for detecting the labeling antenna.

2. The laboratory information collector inspection labeling device according to claim 1, wherein the power mechanism (11) comprises two groups of bilaterally symmetrical transmission mounting frames (18) fixedly connected to the upper end face of the detection workbench (15), one transmission roller shaft (19) is rotatably connected to the upper end of each group of transmission mounting frames (18), and a transmission belt (30) is rotatably connected to the two transmission roller shafts (19).

3. The laboratory information collector inspection labeling device according to claim 2, wherein a group of uniformly distributed placing bars (20) are slidably connected to the upper end surface of the conveying belt (30), and a placing groove (28) is formed in each placing bar (20).

4. A laboratory information collector inspection labelling device according to claim 3, characterized in that the front end face of each of said placement bars (20) is rotatably connected with a capacitor storage alignment plate (29), and the position of each of said capacitor storage alignment plates (29) corresponds to the same position of said placement groove (28).

5. The laboratory information collector inspection labeling device according to claim 4, wherein the placement and transmission mechanism (12) comprises a motor base (16) fixedly connected with the front end face of the detection workbench (15), the upper end face of the motor base (16) is fixedly connected with a transmission motor (17), and the front end face of the transmission motor (17) is in power connection with the transmission roller shaft (19) positioned on the right side.

6. The laboratory information collector inspection labeling device according to claim 5, wherein the detection mechanism (13) comprises a detection mounting frame (25) fixedly connected with the upper end face of the detection workbench (15), the upper end of the detection mounting frame (25) is fixedly connected with a detection adjustment rail (24), and the lower end face of the detection adjustment rail (24) is slidably connected with two photoelectric integrated detection heads (23) which are symmetrical front and back.

7. The laboratory information collector inspection labeling device according to claim 6, wherein an electromagnet (22) is fixedly connected to the front end face of the detection mounting frame (25), a response sliding shaft (26) is slidably connected to the front end of the electromagnet (22), a servo electric signal output block (21) is fixedly connected to the front end face of the response sliding shaft (26), a recovery spring (27) is fixedly connected to the front end face of the electromagnet (22), and the front end of the recovery spring (27) is fixedly connected to the servo electric signal output block (21).