CN220040268U - Camera simulation testing device - Google Patents

Abstract

The utility model provides a camera simulation testing device, which comprises an image information reading device, a camera control device and a reminding device, wherein the image information reading device is used for reading a plurality of groups of shot image information, the camera control device is electrically connected with an external camera and is used for driving the external camera to shoot, and the reminding device is used for reminding a worker, and the camera control device acts according to the read information of the image information reading device; the reminding device operates according to the reading information of the image information reading device. Through the setting, the false visual detection process can be simulated again, and meanwhile, the current running condition can be fed back timely and accurately, so that staff can detect and process the problems timely, and then the corresponding updated software or hardware can be updated, the visual detection system is more accurate in detection, and the user experience is better.

Description

Camera simulation testing device

Technical Field

The utility model belongs to the technical field of simulation test devices, and particularly relates to a camera simulation test device.

Background

In the existing production detection line, an image acquisition device is generally arranged to acquire product image information, so that visual detection of products is realized, and the detection mode can automatically detect the products and improve the quality of the products. However, due to the fact that the number of the detection products is large, errors in collecting image information may occur in the detection process. The reason why the error information is difficult to judge and detect only by the image information in the follow-up process, the corresponding hardware or software cannot be modified and updated in time by staff, so that the accuracy of product detection is reduced, and the use experience of a user is influenced.

Disclosure of Invention

The utility model aims to at least solve one of the technical problems in the prior art, and provides a camera simulation test device which can solve the problems that after a fault occurs in the existing visual detection production line, the cause of the fault is difficult to judge and detect, the update and upgrade of a system or a device are difficult to carry out, has the working condition of detecting visual detection before simulation, and simultaneously reminds a worker to further detect the condition, and feeds back timely and accurately monitors.

One of the purposes of the utility model is realized by adopting the following technical scheme:

camera emulation testing arrangement includes:

an image information reading device for reading a plurality of sets of photographed image information;

the camera control device is electrically connected with the external camera and is used for driving the external camera to shoot, and the camera control device acts according to the read information of the image information reading device;

and the reminding device is used for reminding staff, and the reminding device acts according to the reading information of the image information reading device.

Further, the camera control device comprises an encoder connected with an external camera, a motor and a coupler for connecting the encoder shaft and the motor output shaft.

Further, the camera control device further comprises a convex strip fixed on the coupler and rotating along with the coupler and a sensing device for detecting the convex strip, and the encoder acts according to the detection information of the sensing device.

Further, the motor also comprises a speed regulating device for regulating the rotation speed of the motor.

Further, the camera rack comprises a rack, and a plurality of placing groove positions for placing the cameras are arranged on the rack.

Further, the placing groove positions on the placing rack are arranged in a plurality of rows in parallel, and the placing groove positions on two adjacent rows are arranged in a staggered mode.

Further, the camera control device also comprises a cabinet, wherein the image information reading device and the reminding device are arranged on the cabinet, and the camera control device is arranged inside the cabinet.

Further, a fan is arranged on the cabinet and used for radiating heat in the cabinet to the outer side of the cabinet.

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

when the camera simulation testing device is used, the image information which is shot on the detection line before can be firstly input into the image information reading device, the external camera is electrically connected with the camera control device, then when the image information reading device reads one image, the camera control device simulates and controls the camera to perform shooting action once, when the image information reading device reads unqualified image information, the reminding device is controlled to act at the moment, and staff is reminded to detect and judge the current situation according to the shot image of the camera, so that the reason for the problem is whether the hardware problem of the camera or the running software problem or other problems are judged. Through the setting, the false visual detection process can be simulated again, and meanwhile, the current running condition can be fed back timely and accurately, so that staff can detect and process the problems timely, and then the corresponding updated software or hardware can be updated, the visual detection system is more accurate in detection, and the user experience is better.

Drawings

FIG. 1 is a schematic diagram of a preferred embodiment of a camera simulation test apparatus of the present utility model;

fig. 2 is a schematic structural view of a preferred embodiment of the camera control apparatus of the present utility model.

Wherein, each reference sign in the figure:

10. an image information reading device; 201. an encoder; 202. a motor; 203. a coupling; 204. a convex strip; 205. an induction device; 30. a placing rack; 301. placing a groove position; 40. a cabinet; 50. a blower; 60. and a camera.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

The utility model is shown with reference to fig. 1-2, comprising an image information reading device 10 for reading a plurality of groups of shot image information, a camera 60 control device electrically connected with an external camera 60 and used for driving the external camera 60 to shoot, and a reminding device used for reminding staff, wherein the camera 60 control device acts according to the read information of the image information reading device 10; the reminding device operates according to the reading information of the image information reading device 10. When the scheme is used, the image information which is shot on the detection line before can be firstly input into the image information reading device 10, the external camera 60 is electrically connected with the camera 60 control device, then when the image information reading device 10 reads one image, the camera 60 control device simulates and controls the camera 60 to perform shooting action once, when the image information reading device 10 reads unqualified image information, the reminding device is controlled to act at the moment and reminds a worker to detect and judge the current situation according to the image shot by the camera 60, and then the reason of the problem is judged to be the hardware problem of the camera 60 or the running software problem or other problems. Through the setting, the false visual detection process can be simulated again, and the current running condition can be fed back timely and accurately, so that staff can detect and process the problems in time, and then the corresponding updated software or hardware can be updated, the visual detection system is more accurate in detection, and the user experience is better.

As a preferred embodiment of the utility model, it may also have the following additional technical features:

in this embodiment, referring to fig. 1-2, the camera 60 control device includes an encoder 201 connected to the external camera 60, a motor 202, and a coupling 203 for connecting the shaft of the encoder 201 and the output shaft of the motor 202. With the above arrangement, after the motor 202 is started, the encoder 201 can be driven to synchronously operate through the coupling 203, and when the shaft of the encoder 201 rotates by a moving angle, an electrical signal is generated at this time to drive the camera 60 to perform shooting operation. The mode can directly mechanically control the action of the encoder 201 through the external motor 202, so that the encoder can control the regular shooting of the camera 60, the action time of the camera 60 is more timely, the simulation process is more accurate, and the accuracy of the subsequent fault cause processing is improved.

In this embodiment, referring to fig. 1-2, the camera 60 control device further includes a protruding strip 204 fixed on the coupling 203 and rotating with the same, and a sensing device 205 for detecting the protruding strip 204, where the encoder 201 operates according to the detection information of the sensing device 205. With the above arrangement, each time the protrusion 204 rotates past the sensing device 205, the sensing device 205 transmits information to the encoder 201, so that it sends out an electrical signal to drive the camera 60 to take a picture. This way makes the sending out of encoder 201 signal more accurate, and the frequency of encoder 201 action can be improved through increasing the quantity of sand grip 204 or induction system 205 simultaneously for encoder 201 can adapt to different vision detection line, and application scope is wider.

In combination with the specific structural arrangement of the control device of the camera 60, in this embodiment, a speed regulating device is further included for regulating the rotation speed of the motor 202. By setting the speed adjusting device, the rotation speed of the motor 202 can be correspondingly adjusted, and the frequency of the electric signal sent by the encoder 201 can be further adjusted. By the method, the action frequency of the encoder 201 can be adjusted and adapted according to the image refresh speed of the current visual detection line, so that the simulation process is more accurate, and the accuracy of the subsequent fault cause processing is improved.

In this embodiment, referring to fig. 1, the camera module further includes a placement frame 30, and a plurality of placement slots 301 for placing the camera 60 are provided on the placement frame 30. Through the arrangement of the placement frame 30, a plurality of cameras 60 which may have problems can be placed on the placement frame 30, and then the cameras 60 can be detected one by one through a simulation process, so that whether the hardware part of the camera 60 has problems or not can be obtained. Meanwhile, in the detection process, other cameras 60 can be stably placed in the placement groove 301, movement dislocation and even breaking abrasion cannot occur, and cost loss is reduced.

In this embodiment, referring to fig. 1, the placement slots 301 on the placement frame 30 are arranged in parallel in multiple rows, and the placement slots 301 on two adjacent rows are staggered. Through the arrangement, the cameras 60 placed on the two adjacent rows are staggered, contact or interference between the two cameras can not occur, damage to the cameras 60 caused by collision is avoided, and cost loss is reduced.

In this embodiment, referring to fig. 1, the image information reading apparatus 10 and the reminding apparatus are both disposed on the cabinet 40, and the camera 60 control apparatus is disposed inside the cabinet 40. Through the arrangement, the image information reading device 10 and the reminding device can be stably fixed on the cabinet 40, dislocation or movement of the image information reading device 10 and the reminding device in the working process is prevented, meanwhile, the camera 60 control device is arranged inside the cabinet 40, the camera 60 simulation shooting action can be carried out in the cabinet, the contact of external personnel is avoided, the normal operation of the camera 60 control device is influenced, the safety of the camera 60 and the camera 60 control device is improved, and cost loss is reduced.

In combination with the above arrangement of the cabinet 40, in this embodiment, referring to fig. 1, a fan 50 is disposed on the cabinet 40, and the fan 50 is used for dissipating heat in the cabinet 40 to the outside of the cabinet 40. Through the setting of fan 50, can be at the in-cabinet heat drive of camera 60 emulation in-process, give off to outside, reduce the heat of motor 202 and encoder 201 self.

The above additional technical features can be freely combined and superimposed by a person skilled in the art without conflict.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (8)

1. The camera simulation test device is characterized by comprising:

an image information reading device (10) for reading a plurality of sets of photographed image information;

a camera (60) control device electrically connected with the external camera (60) and used for driving the external camera (60) to shoot, wherein the camera (60) control device acts according to the read information of the image information reading device (10);

and the reminding device is used for reminding workers, and the reminding device acts according to the reading information of the image information reading device (10).

2. Camera simulation test device according to claim 1, characterized in that the camera (60) control device comprises an encoder (201) connected to an external camera (60), a motor (202) and a coupling (203) for connecting the encoder (201) shaft and the motor (202) output shaft.

3. The camera simulation test apparatus according to claim 2, wherein the camera (60) control apparatus further comprises a protrusion (204) fixed to the coupling (203) and rotatable therewith, and a sensing device (205) for detecting the protrusion (204), and the encoder (201) operates according to the detection information of the sensing device (205).

4. The camera simulation test apparatus of claim 2, further comprising a speed regulating means for regulating a rotational speed of the motor (202).

5. The camera simulation test device according to claim 1, further comprising a placement frame (30), wherein a plurality of placement slots (301) for placing the camera (60) are provided on the placement frame (30).

6. The camera simulation test device according to claim 5, wherein the placement slots (301) on the placement frame (30) are arranged in a plurality of rows in parallel, and the placement slots (301) on two adjacent rows are arranged in a staggered manner.

7. The camera simulation test device according to claim 1, further comprising a cabinet (40), wherein the image information reading device (10) and the reminding device are both arranged on the cabinet (40), and the camera (60) control device is arranged inside the cabinet (40).

8. The camera simulation test device according to claim 7, wherein a fan (50) is provided on the cabinet (40), and the fan (50) is used for radiating heat in the cabinet (40) to the outside of the cabinet (40).