CN104568959A - Method for detecting mixed type object to be detected - Google Patents

Abstract

The invention discloses a method for detecting mixed types of objects to be tested, in which an image detection device can process multiple different types of objects to be tested at the same time, and the detection device will capture new types of objects to be tested that have not been learned. The image is transmitted to other detection devices to learn or detect the new type of object to be tested, without the need to stop the machine to learn the new type of object to be tested, thus improving efficiency.

Description

A method for detecting mixed type analytes

technical field

The invention relates to a method for detecting mixed types of objects to be tested, in particular to a method for detecting images of automatic optical detection.

Background technique

Automated Optical Inspection (AOI) is an automated and efficient inspection method, which optically captures a surface image of an object to be tested, and uses image processing to detect defects such as foreign objects or abnormal patterns. AOI has been widely used in the production process of liquid crystal panels, transistors, circuit boards and other products.

In the automatic optical inspection (AOI) method in the prior art, in order to repeatedly inspect multiple products of the same type, it is necessary to learn the inspection steps before inspecting the products, and then the inspection can be carried out. However, the learning step is time-consuming. For automated production equipment, as shown in FIG. Step S11), the detection device needs to be shut down to learn the new B-type analyte (step S12), resulting in reduced efficiency. Therefore, the present invention proposes a detection method to overcome the above disadvantages.

Contents of the invention

An embodiment of the present invention provides a method for detecting a mixed type of analyte, which includes the following steps: providing a first detection device for detecting a first type of analyte; when detecting the first type of analyte , while providing at least one second type of analyte interspersed between the first type of analyte to the first detection device for detection, wherein the second type of analyte is different from the first type of analyte; and when the first detection device recognizes the second type of test object in the process of detecting the first type of test object, the first detection device will be identified as the captured image transmission of the second type of test object to a second detection device.

In one embodiment, the step of identifying the second type of DUT by the first detection device further includes: identifying that the captured image of the second type of DUT is different from that of the first type of DUT captured image of .

In one embodiment, the step of identifying the second type of object under test by the first detection device further includes: identifying that the captured image of the second type of object under test has an image representing the second type of object under test identification number.

In one embodiment, the analyte further comprises at least one third type of analyte, wherein the third type of analyte is different from the first type of analyte and the second type of analyte, wherein when the When the first detecting device recognizes the third type of object under test, the first detecting device transmits the captured image identified as the third type of object under test to a third detecting device.

In one embodiment, the step of identifying the third type of DUT by the first detection device further includes: identifying that the captured image of the third type of DUT is different from that of the first type of DUT and the captured image of the second type of object under test.

In one embodiment, the step of identifying the third type of object under test by the first detection device further includes: identifying that the captured image of the third type of object under test has an image representing the third type of object under test identification number.

In one embodiment, when the first detection device recognizes the first type of object under test, it detects the captured image identified as the first type of object under test and outputs a detection result; wherein the first detection The step of the device identifying the first type of DUT further includes: identifying that the captured image of the first type of DUT has an identification number representing the first type of DUT.

Another embodiment of the present invention provides a method for detecting a mixed type of analyte, which includes the following steps: providing a first detection device for detecting a first type of analyte, wherein the first detection device has not learned detecting a second type of analyte and the second type of analyte is different from the first type of analyte; providing at least one of the second type of analyte to the first detection device; and when the first When the detection device recognizes the second type of test object, the first detection device transmits the captured image identified as the second type of test object to a second detection device for the second detection device to learn or detection.

Another embodiment of the present invention provides a method for detecting a mixed type of analyte, which includes the following steps: providing a first device for detecting a first type of analyte; when detecting the first type of analyte , while providing at least one second type of analyte interspersed between the first type of analyte to the first device for detection, wherein the second type of analyte is different from the first type of analyte; and When the first device recognizes the second type of DUT in the process of detecting the first type of DUT, the first device transmits the captured image identified as the second type of DUT to a first device. Two devices.

In this embodiment, the second device can be a second detection device, a fixed storage device, a removable storage device, a server or a computer.

Description of drawings

Fig. 1 is the schematic diagram of prior art;

Fig. 2 is a schematic diagram of a detection method according to an embodiment of the present invention;

Fig. 3 is a schematic configuration diagram of multiple detection devices provided by an embodiment of the present invention;

Fig. 4 is a schematic configuration diagram of multiple detection devices provided by another embodiment of the present invention.

Description of reference numerals: 30-network; 31-first detection device; 32-second detection device; 33-third detection device; 34-storage device/server/computer.

Detailed ways

The detailed description of the present invention is described in the following, and the preferred embodiments described here are used for the purpose of illustration and description, and are not intended to limit the scope of the present invention.

FIG. 2 is a schematic diagram of an embodiment of the present invention, disclosing a method for detecting a mixed type of analyte, which includes the following steps: providing a first detection device for detecting a first type of analyte (step S21) ; When detecting the first type of analyte, at the same time provide at least one second type of analyte interspersed between the first type of analyte to the first device for detection, wherein the second type of analyte is different In the first type of analyte (step S22); when the first detection device recognizes the second type of analyte (step S23), the first detection device will be identified as the second type of analyte The captured image is transmitted to a second detection device (step S24).

In one embodiment, the first detection device has not learned how to detect the second type of test object; when the first detection device recognizes the second type of test object, the first detection device will be identified The captured image of the second type of object under test is transmitted to a second detection device for learning or detection by the second detection device. In one embodiment, the first detection device inserts a second type of test object without shutting down during the detection of the first type of test object. The first detection device determines that a new second type of object to be tested is inserted, and transmits the image of the second type of object to be tested to a second detection device for learning or detection by the second detection device.

In one embodiment, the first detection device can transmit the captured image of the second type of object to be detected to the second detection device in various ways, such as a network, including a wired network or a wireless network. The first detection device can also transmit the captured image of the second type of DUT to the second detection device through a traditional telecommunication network. In addition, the first detection device can also transmit the captured image of the second type of object to be detected to the second detection device through a storage device. Storage devices can be fixed or removable.

In one embodiment, an image detection device can process multiple different types of objects under test at the same time, and the detection device transmits captured images of new types of objects under test that have not been learned to other detection devices to learn or detect the objects under test. A new type of DUT without the need for downtime to learn the new type of DUT, thereby improving efficiency.

The first detection device performs image detection on the objects under test one by one; the captured images of the first type of object under test and the second type of object under test will naturally be different. In addition, an identification figure number can be assigned to each type of DUT. The identification number can be the code of the test object and can be read or recognized by the first detection device to identify various types of test objects.

In one embodiment, when the first detection device identifies the first type of object under test, it detects the captured image identified as the first type of object under test and outputs a detection result. In addition, the test results can be stored for subsequent processing and use.

In one embodiment, the first detection device transmits the captured image of the second type of object to be tested to a second detection device that has learned the second type of object to be tested; thereby, the first A learning step of the detection device for the second type of object to be tested, so as to improve the production efficiency when the product line is changed.

Those with common sense can understand that the analyte may further include at least one third type of analyte different from the first type of analyte and the second type of analyte; The captured image of the third type of object under test is transmitted to a third detection device to improve production efficiency.

FIG. 3 is a schematic configuration diagram of multiple detection devices according to an embodiment of the present invention, wherein the first detection device 31 , the second detection device 32 and the third detection device 33 are connected through a network 30 . The first detection device 31 is used to detect a first type of analyte; the second detection device 32 is used to detect a second type of analyte; the third detection device 33 is used to detect a third type analyte, wherein the first detection device can process the first type of analyte and the second type of analyte; when the first detection device recognizes the second type of analyte, it will be identified as The captured image of the second type of object under test is transmitted to the second detection device through the network 30 .

In one embodiment, the first detection device 31 can simultaneously process the first type of DUT, the second type of DUT and the third type of DUT; wherein, when the first detection device 31 recognizes the second type of test object, the captured image identified as the second type of test object is transmitted to the second detection device 32 through the network 30; when the first detection device recognizes the third type of test object and transmit the captured image identified as the third type of object under test to the third detection device 33 through the network 30 .

In one embodiment, the network can be a wired network or a wireless network. In addition, the captured images of the second type of DUT and the third type of DUT may also be transmitted to the second detection device 32 and the third detection device 33 through a traditional telecommunication network.

Another embodiment of the present invention provides a method for detecting a mixed type of analyte, which includes the following steps: providing a first device for detecting a first type of analyte; when detecting the first type of analyte , while providing at least one second type of analyte interspersed between the first type of analyte to the first device for detection, wherein the second type of analyte is different from the first type of analyte; and When the first device recognizes the second type of test object, the captured image identified as the second type of test object is transmitted to a second device.

In an embodiment, the second device may be a second detection device, a fixed storage device, a removable storage device, a server or a computer.

FIG. 4 is a schematic configuration diagram of multiple detection devices according to another embodiment of the present invention. The first detection device 31 can also use a storage device, a server or a computer 34 to combine the second type of object under test and the third type The captured image of the object under test is transmitted to the second detection device 32 and the third detection device 33 . Storage devices can be fixed or removable. That is to say, multiple detection devices can indirectly transmit data to each other through an intermediate device to achieve mutual support. Other explanations are the same as the foregoing embodiments, so no further description is given.

In this embodiment, an image detection device can process multiple different types of objects under test at the same time, and the detection device passes the captured images of new types of objects under test that have not been learned through an intermediate device, such as a fixed storage device, a A removable storage device, a server or a computer is indirectly transmitted to other detection devices to learn or detect the new type of DUT, and the image detection device does not need to stop to learn the new type of DUT, thereby improving efficiency .

Although the present invention is disclosed above with the aforementioned preferred embodiments, it is not intended to limit the present invention. Any person skilled in the art may make some changes and modifications without departing from the spirit and scope of the present invention. Therefore, The scope of patent protection of the present invention must be defined by the appended claims of this specification.

Claims (9)

1. A method for detecting a mixed type analyte, characterized in that, comprising the following steps: providing a first detection device for detecting a first type of analyte; When detecting the first type of analyte, at the same time provide at least one second type of analyte interspersed between the first type of analyte to the first detection device for detection, wherein the second type of analyte the analyte is different from the first type of analyte; and When the first detection device identifies the second type of analyte during the detection of the first type of analyte, the first detection device will be identified as the second type of analyte The captured image is transmitted to a second detection device. 2. The method for detecting a mixed type of analyte according to claim 1, characterized in that, in the step of identifying the second type of analyte by the first detection device, further comprising: identifying the second type of analyte The captured image of the second type of DUT is different from the captured image of the first type of DUT. 3. The method for detecting a mixed type of analyte according to claim 1, wherein the step of identifying the second type of analyte by the first detection device further comprises: identifying the first The captured image of the second type of DUT has an identification number representing the second type of DUT. 4. A method for detecting a mixed type analyte, characterized in that it comprises the following steps: A first detection device is provided for detecting a first type of analyte, wherein the first detection device has not learned to detect a second type of analyte and the second type of analyte is different from the The first type of analyte; providing at least one analyte of the second type to the first detection device; and When the first detecting device recognizes the second type of object under test, the first detecting device transmits the captured image identified as the second type of object under test to a second detecting device for For the second detection device to learn or detect. 5. A method for detecting a mixed type analyte, comprising the following steps: providing a first device for detecting a first type of analyte; When detecting the first type of analyte, provide at least one second type of analyte interspersed between the first type of analyte to the first device for detection, wherein the second type of analyte a substance different from the first type of analyte; and When the first device recognizes the second type of DUT in the process of detecting the first type of DUT, the first device will be identified as the capture of the second type of DUT The captured image is transmitted to a second device. 6. The method for detecting a mixed type of analyte according to claim 5, wherein the step of identifying the second type of analyte by the first device further comprises: identifying the second type of analyte The captured image of the type of DUT is different from the captured image of the first type of DUT. 7. The method for detecting a mixed type of analyte according to claim 5, wherein the step of identifying the second type of analyte by the first device further comprises: identifying the second type of analyte The captured image of the type of DUT has an identification number representing the second type of DUT. 8. The method for detecting a mixed type of analyte according to claim 5, further comprising: when the first device recognizes the first type of analyte, the first device will be The captured image identified as the first type of object under test is detected and a detection result is output. 9 . The method for detecting mixed types of analytes according to claim 5 , wherein the second device is a fixed storage device, a removable storage device, a server or a computer.