CN109283899B

CN109283899B - Workpiece quality inspection method and device, medium, numerical control system and quality inspection system

Info

Publication number: CN109283899B
Application number: CN201811083064.7A
Authority: CN
Inventors: 朱志浩; 周昱晟; 夏晓; 徐振
Original assignee: Shenji Shanghai Intelligent System R&d Design Co ltd
Current assignee: Shenji Shanghai Intelligent System R&d Design Co ltd
Priority date: 2018-09-17
Filing date: 2018-09-17
Publication date: 2021-07-02
Anticipated expiration: 2038-09-17
Also published as: CN109283899A

Abstract

The embodiment of the invention discloses a workpiece quality inspection method and a device thereof, a medium, a numerical control system and a quality inspection system, wherein the workpiece quality inspection method comprises the following steps: acquiring the number of reported workpieces of a target workpiece, wherein the target workpiece is a workpiece to be quality-checked, which is determined by a quality check task issued from a server, and the quality check task comprises a quality check requirement and a quality check plan; when the reported working number is greater than or equal to the quality inspection number of the quality inspection batch in the quality inspection plan, matching the quality inspection item corresponding to the quality inspection task; and detecting the target workpiece corresponding to the quality inspection task according to the quality inspection item to obtain the measurement data of the target workpiece. The technical scheme in the implementation of the invention can reduce the workload of operators and improve the processing efficiency of the machine tool.

Description

Workpiece quality inspection method and device, medium, numerical control system and quality inspection system

Technical Field

The invention relates to the field of machining, in particular to a workpiece quality inspection method and device, a medium, a numerical control system and a quality inspection system.

Background

The information management is a process of driving industrialization by informatization and realizing enterprise management modernization, and the process is a process of improving enterprise efficiency and benefits and enhancing enterprise competitiveness.

In the machine tool workshop management, after a certain number of workpieces are processed in a workshop, the quality of a processed finished product needs to be detected so as to ensure that the processed finished product meets the quality requirement. In the conventional system for making plant management information, in a process of executing a job quality inspection task, a sample selection, a measuring device selection, and the like are added from a quality inspection lot, and an operator confirms the result and then performs the next process, which makes the operation process complicated.

Therefore, when the existing workshop management informatization system executes a workpiece quality inspection task, each step of operation process needs the participation of field operators, the workload of the operators is large, the requirements on the skills of the operators are high, a large amount of cost is needed to train the operators, and the machining efficiency of a machine tool is seriously influenced.

Disclosure of Invention

The technical problem solved by the embodiment of the invention is to reduce the workload of operators and improve the processing efficiency of a machine tool.

In order to solve the above technical problem, an embodiment of the present invention provides a workpiece quality inspection method, including: acquiring the number of reported workpieces of a target workpiece, wherein the target workpiece is a workpiece to be quality-checked, which is determined by a quality check task issued from a server, and the quality check task comprises a quality check requirement and a quality check plan; when the reported working number is greater than or equal to the quality inspection number of the quality inspection batch in the quality inspection plan, matching the quality inspection item corresponding to the quality inspection task; and detecting the target workpiece corresponding to the quality inspection task according to the quality inspection item to obtain the measurement data of the target workpiece.

Optionally, the matching of the quality inspection items corresponding to the quality inspection tasks includes: adding the quality inspection batches according to the quality inspection plan; and selecting the quality inspection item of the target workpiece corresponding to the quality inspection batch.

Optionally, the adding of the quality inspection batch according to the quality inspection plan includes: when the reported number of jobs is greater than or equal to the quality inspection number, displaying a quality inspection request prompt through a human-computer interface; responding to the confirmation operation prompted by the quality inspection request, and displaying a quality inspection batch adding control; and adding the quality inspection batch in response to the triggering of the quality inspection batch control.

Optionally, the selecting the target quality inspection item of the quality inspection batch includes: determining sample workpieces from the target workpieces corresponding to the reported number of workers, and displaying the sample workpieces through a human-computer interface; in response to the selection operation of the sample workpieces, determining target sample workpieces from the sample workpieces, and displaying quality inspection items of the target sample workpieces through the human-computer interface; and determining a target quality inspection item in response to the selection operation of the quality inspection item.

Optionally, one quality inspection task corresponds to at least one quality inspection batch, one quality inspection batch corresponds to at least one sample workpiece, one sample workpiece corresponds to at least one quality inspection item, and one quality inspection item corresponds to at least one measurement result.

Optionally, the measurement result at least includes: the quality inspection item, the sample workpiece, the quality inspection batch and the quality inspection task corresponding to the quality inspection item, the measurement device information and the measurement time of the quality inspection item, and the user identification and the equipment identification submitting the measurement result.

Optionally, the detecting the target workpiece corresponding to the quality inspection task according to the quality inspection item includes: displaying a measurement interaction control of a target quality inspection item of the target workpiece through a human-computer interface; and responding to the triggering operation of the measurement interaction control to obtain the measurement data of the target quality inspection item.

Optionally, the measurement interaction control includes a measurement data display control and a measurement control; the obtaining of the measurement data of the target quality inspection item in response to the triggering of the measurement interaction control includes any one of: triggering a measuring device to measure the target quality inspection item in response to the triggering of the measuring control to obtain the measuring data of the target quality inspection item; and responding to the trigger of the measurement data display control, acquiring the measurement data input by a user, and obtaining the measurement data of the target quality inspection item.

Optionally, the triggering measurement device measures the target quality inspection item to obtain measurement data of the target quality inspection item, where the measurement data includes any one of the following: responding to the trigger of the measurement control, sending a request for using the measurement device to the server, and receiving measurement data sent from the measurement device to obtain the measurement data of the target quality inspection item; responding to the trigger of the measurement control, sending a request for using the measurement device to the server, receiving measurement data sent from the measurement device to obtain the measurement data of the target quality inspection item, and submitting a measurement result to the server, wherein the measurement result comprises the measurement data; and responding to the trigger of the measurement control, sending a request for using the measurement device to the server, and receiving measurement data returned from the server to obtain the measurement data of the target quality inspection item.

Optionally, the measuring device measures the target quality inspection item and executes the measurement after associating with the measuring device; the associating the measurement device comprises: responding to the trigger operation of binding the measuring device control displayed on the human-computer interface, and displaying the measuring device binding request control; responding to the triggering operation of the measuring device binding request control, and sending a measuring device binding request to the server; and displaying a request result returned from the server through the human-computer interface.

Optionally, the measuring device is a bluetooth measuring device, and the measurement data of the bluetooth measuring device is sent to a receiving end for receiving the measurement data through a bluetooth communication protocol.

Optionally, the method further includes: and analyzing the measurement data of the target workpiece, and displaying the analysis result of the measurement data through a human-computer interface.

Optionally, the analyzing the measurement data of the target workpiece includes at least one of the following analysis contents: determining the qualified condition of the measurement data of the quality inspection item according to the minimum value and the maximum value range of each quality inspection item determined by the quality inspection requirement; counting at least one statistical result of the quality inspection task and a plurality of sample workpieces of a plurality of quality inspection batches of the quality inspection task in real time: the qualified number, the unqualified number and the number to be inspected in the plurality of sample workpieces; and counting the qualification rates of the quality inspection items of the quality inspection tasks and the sample workpieces of the quality inspection batches of the quality inspection tasks.

The embodiment of the invention also provides a workpiece quality inspection device, which comprises: the system comprises a reported work number acquisition unit, a quality inspection task processing unit and a quality inspection processing unit, wherein the reported work number acquisition unit is suitable for automatically acquiring the reported work number of a target workpiece, the target workpiece is a workpiece to be subjected to quality inspection determined by a quality inspection task issued from a server, and the quality inspection task comprises a quality inspection requirement and a quality inspection plan; the matching unit is suitable for matching the quality inspection items corresponding to the quality inspection tasks when the reported working number is greater than or equal to the quality inspection number of the quality inspection batch in the quality inspection plan; and the detection unit is suitable for detecting the target workpiece corresponding to the quality inspection task according to the quality inspection item to obtain the measurement data of the target workpiece.

Optionally, the matching unit includes: the quality inspection batch adding subunit is suitable for adding the quality inspection batch according to the quality inspection plan; and the quality inspection item selection subunit is suitable for selecting the quality inspection items of the target workpieces corresponding to the quality inspection batches.

Optionally, the detecting unit includes: the measurement interaction control display subunit is suitable for displaying the measurement interaction control of the target quality inspection item of the target workpiece through a human-computer interface; and the measurement data acquisition subunit is suitable for responding to the triggering operation of the measurement interaction control to obtain the measurement data of the target quality inspection item.

Optionally, the measurement interaction control includes a measurement data display control and a measurement control; the measurement data acquisition subunit comprises any one of the following modules: the measurement data acquisition module is suitable for responding to the triggering of the measurement control and triggering the measurement device to measure the target quality inspection item so as to obtain the measurement data of the target quality inspection item; and the input data acquisition module is suitable for responding to the trigger of the measurement data display control and acquiring the measurement data input by a user so as to obtain the measurement data of the target quality inspection item.

The embodiment of the invention also provides a computer-readable storage medium, wherein computer instructions are stored on the computer-readable storage medium, and when the computer instructions are executed, the computer-readable storage medium executes the steps of any one of the workpiece quality inspection methods.

The embodiment of the invention also provides a numerical control system which comprises a memory and a processor, wherein the memory is stored with computer instructions capable of running on the processor, and the processor executes any one of the steps of the workpiece quality inspection method when running the computer instructions.

The embodiment of the invention also provides a workpiece quality inspection system, which comprises: the system comprises a server, a measuring device, at least one machining control device and at least one machine tool body for executing workpiece machining; the server is suitable for issuing a quality inspection task to the machining control device and issuing a measurement task to the measurement device; the machine tool body is suitable for processing a workpiece to be detected; the machining control device is adapted to control the machine tool body, and includes: any one of the above workpiece quality inspection devices or any one of the above numerical control systems.

Optionally, the measuring device includes: the digital display measuring tool is used for measuring the size of the workpiece to be detected to obtain measurement data; and the transmitter is suitable for being connected with the digital display measuring tool through a serial port and transmitting the measuring data measured by the digital display measuring tool.

Optionally, the transmitter is a bluetooth transmitter adapted to transmit the measurement data via a bluetooth communication protocol.

Optionally, the measuring device further comprises an adapter, the adapter is connected with the machining control device through a USB interface, and the adapter is used for receiving the measurement data sent by the measuring device.

Optionally, the adapter is a bluetooth adapter, and the bluetooth adapter is adapted to receive the measurement data sent by the measurement apparatus through a bluetooth communication protocol.

Optionally, the system further comprises a relay device, and the relay device is adapted to receive the measurement data sent by the measurement device and send the measurement data to the server.

Optionally, the relay device is adapted to receive the measurement data through a bluetooth communication protocol, and send the measurement data to the server through a WEB SERVICE protocol.

Compared with the prior art, the technical scheme of the embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, by acquiring the number of reported jobs of the target workpiece, when the number of reported jobs is greater than or equal to the quality inspection number of each quality inspection batch confirmed in the quality inspection plan, matching the quality inspection item corresponding to the quality inspection task, and detecting the target workpiece corresponding to the quality inspection task according to the quality inspection item to obtain the measurement data of the target workpiece. Therefore, the reported number of workpieces can be automatically acquired without manually inputting the reported number by an operator, so that the operation flow of the operator can be reduced, and the operation burden of the operator can be reduced; meanwhile, the manual work reporting number does not need to be input by an operator, so that the occurrence of a wrong work reporting event caused by manual input errors can be avoided, and the machining efficiency of the machine tool can be improved.

And further, determining the quality inspection number of the quality inspection batch through the issued quality inspection plan of the quality inspection task, displaying a quality inspection prompt on a human-computer interface when the reported number of workpiece processing is determined to be greater than or equal to the quality inspection number, and determining to add the quality inspection batch after obtaining the confirmation operation of the prompt requesting the quality inspection. Therefore, the quality inspection number of the quality inspection batch can be automatically acquired after the confirmation operation of the operator is acquired, and the operator does not need to manually input the quality inspection number, so that the operation process of the operator can be reduced, and the workload of the operator can be reduced. Meanwhile, the possibility of error of the quality inspection number caused by error input of an operator can be reduced, and the possibility of occurrence of error events in the quality inspection process can be reduced.

And responding to the adding operation of adding the quality inspection batch, determining the sample workpiece to be inspected from the workpieces to be inspected corresponding to the reported working number, so that the quality inspection batch does not need to be selected, the number of the sample workpieces does not need to be manually added, the number of the sample workpieces is automatically added, the operation flow of operators can be further reduced, and the workload of the operators can be reduced.

Furthermore, the measurement control is triggered in response to receiving the measurement data sent by the measurement device, so that the measurement data measured by the measurement device can be directly obtained, and compared with manual input of the measurement data, the possibility of output errors in manual input can be avoided, thereby ensuring the accuracy of the measurement data and improving the efficiency of data acquisition.

After the measurement data measured by the measuring device is acquired, the measurement result comprising the measurement data is sent to the server side, and the measurement result can be automatically sent to the server side without the operation of an operator, so that the operation flow of the operator can be reduced, and the workload of the operator can be further reduced.

Furthermore, the measuring device is a Bluetooth measuring device, and the measuring data of the Bluetooth measuring device is sent to a receiving device for receiving the measuring data through a Bluetooth communication protocol, so that the receiving device has Bluetooth receiving capacity and can receive the data measured by the Bluetooth measuring device, and the receiving and sending of the measuring data can be completed on various devices.

Furthermore, the relay device receives the measurement data sent by the measurement device and sends the measurement data to the server side, and the server side sends the measurement data to the quality inspection device, so that the measurement data can be transmitted from the measurement device to the machining control device when the machining control device does not have the capability of directly receiving the measurement data measured by the measurement device.

Drawings

FIG. 1 is a flow chart of a method for inspecting quality of a workpiece according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating an exemplary operation of a workpiece quality inspection apparatus according to an embodiment of the present invention;

FIGS. 3-4 are schematic structural diagrams of a quality inspection task execution interface according to an embodiment of the present invention;

FIG. 5 is a diagram illustrating a logical relationship of quality control tasks according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a workpiece quality inspection apparatus according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a workpiece quality inspection system according to an embodiment of the invention.

Detailed Description

As described in the background art, the machining efficiency of the existing machine tool machining needs to be improved.

In the embodiment of the invention, by acquiring the number of reported jobs of the target workpiece, when the number of reported jobs is greater than or equal to the quality inspection number of each quality inspection batch confirmed in the quality inspection plan, matching the quality inspection item corresponding to the quality inspection task, and detecting the target workpiece corresponding to the quality inspection task according to the quality inspection item to obtain the measurement data of the target workpiece. Therefore, the reported number of workpieces can be automatically acquired, and the reported number of workpieces does not need to be manually input by an operator, so that the operation flow of the operator can be reduced, and the operation burden of the operator can be reduced; meanwhile, the manual work reporting number does not need to be input by an operator, so that the occurrence of a wrong work reporting event caused by manual input errors can be avoided, and the machining efficiency of the machine tool can be improved.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Referring to the flowchart of the workpiece quality inspection method shown in fig. 1, in an embodiment of the present invention, the workpiece quality inspection specifically includes the following steps:

and step S11, acquiring the number of reported workpieces of a target workpiece, wherein the target workpiece is a workpiece to be quality-checked, which is determined by a quality check task issued from a server, and the quality check task comprises a quality check requirement and a quality check plan.

The quality inspection is to perform quality inspection on a machined workpiece, and the machined workpiece may be the target workpiece.

In a specific implementation, the quality inspection can be divided into a full inspection and a spot inspection, wherein the full inspection is a quality inspection of each of the processed workpieces. The sampling inspection is to inspect the processed part of the workpiece according to a certain proportion, for example, 50 workpieces are processed, and 2 workpieces are sampled and inspected.

The quality inspection task is a task issued from a server for quality inspection of a processed workpiece in the processing task, and in specific implementation, the server can be an upper computer, a computer or other terminals capable of issuing the quality inspection task.

The quality inspection requirements comprise quality inspection items required to be detected for the target workpiece and technical requirements corresponding to the quality inspection items.

For example, for a certain workpiece, the quality inspection items may include items such as an outer circle diameter, an inner circle diameter, a step length, a width of a sealing groove, and the like, and the technical requirements may include a maximum value, a minimum value, an allowable difference, and the like. The maximum value is the maximum value allowed to be reached by the nominal size of the target workpiece within the tolerance requirement, the minimum value is the minimum value allowed to be reached by the nominal size of the target workpiece within the tolerance requirement, and the allowed difference value is the requirement of the form and position tolerance of the target workpiece, namely the allowed range of the difference value between the maximum value and the minimum value in the actual detection of the target workpiece.

The quality inspection plan is a detection plan for instructing a quality inspection task. In a specific implementation, the quality inspection plan may include a spot inspection or a full inspection, and when the quality inspection plan is a spot inspection, the quality inspection plan may further include a total number of spot inspections of the spot inspection and a number of sample workpieces, that is, several sample workpieces are sampled for inspection in every several target workpieces.

The reported number is the accumulated number of the number of workpieces subjected to repeated reporting after the machine tool body finishes the processing of the target workpiece. In a specific implementation, after the machine tool body executing the workpiece machining completes the machining of the target workpiece, the machining completion number may be directly reported.

And step S12, when the reported working number is larger than or equal to the quality inspection number of the quality inspection batch in the quality inspection plan, matching the quality inspection item corresponding to the quality inspection task.

The quality inspection number is the number of target workpieces in the frequency of the quality inspection, and the quality inspection batch is an inspection batch obtained by newly creating a quality inspection batch by an operator when the workpiece processing meets the quality inspection plan.

And step S13, detecting the target workpiece corresponding to the quality inspection task according to the quality inspection item to obtain the measurement data of the target workpiece.

The measurement data is size data obtained by measuring the quality inspection item by using a measuring device. In a specific implementation, the measuring device may be a vernier caliper, a micrometer, or the like.

In the implementation of the invention, the reported number of the target workpiece machining can be automatically obtained, and the operator does not need to calculate the machining number according to the machining completion of the machine tool and report the workpiece, so that the workload of the operator can be reduced, and the burden of the operator can be reduced.

In order to facilitate the understanding of the present invention by those skilled in the art,

the following describes the matching of quality inspection items and the detection thereof in detail through a specific application scenario with reference to a specific operation flowchart of workpiece quality inspection shown in fig. 2.

As described in step S12 of the previous embodiment, when the number of reported jobs is greater than or equal to the number of quality tests of the quality test lot in the quality test plan, the quality test items corresponding to the quality test tasks are matched, and the specific operations performed by the user in steps S21 to S23 are explained below.

First, when the reported number is greater than or equal to the quality inspection number of the quality inspection lot in the quality inspection plan, the quality inspection lot is added according to the quality inspection plan, that is, step S21 is executed to add the quality inspection lot.

Referring to fig. 3, in an implementation, when the number of reported jobs is greater than or equal to the quality inspection number of the quality inspection batch, a quality inspection request prompt may be displayed through a human-computer interface. After the operator prompts to execute the confirmation operation on the quality inspection request displayed on the human-computer interface, the quality inspection batch adding control 31 is displayed through the human-computer interface, and the operator executes the trigger operation on the quality inspection batch adding control 31 to add a new quality inspection batch.

And adding the quality inspection batch by confirming the quality inspection prompt and triggering the quality inspection batch adding control. Therefore, the quality inspection number of the quality inspection batch can be automatically acquired after the confirmation operation of the quality inspection batch adding control by the operator is acquired, and the operator does not need to manually input the quality inspection number, so that the operation process of the operator can be reduced, and the workload of the operator can be reduced. Meanwhile, the possibility of error of the quality inspection number caused by error input of an operator can be reduced, and the possibility of occurrence of error events in the quality inspection process can be reduced.

It will be understood by those skilled in the art that the request prompt may be presented in the form of a pop-up dialog box, or in other presentation forms, and is not limited herein.

In a specific implementation, after the quality inspection lot is added, the step S12 of fig. 1 of matching the quality inspection item corresponding to the quality inspection task may further include selecting a quality inspection item of the target workpiece corresponding to the quality inspection lot.

In a specific implementation, after an operator adds a new quality inspection batch by triggering the quality inspection batch adding control 31 (shown in fig. 3) in the human-computer interface, the machining control device may determine a sample workpiece 41 (shown in fig. 4) from the target workpieces corresponding to the number of reported workers, and display the sample workpiece 41 through the human-computer interface. For example, the workpiece number of the sample workpiece can be displayed through a human-computer interface.

The sample workpiece is determined from the workpieces to be detected corresponding to the reported working number through the machining control device, so that the sample workpiece can be automatically added, an operator does not need to select a quality inspection batch, and the sample workpiece does not need to be manually added, so that the operation flow of the operator can be further reduced, and the workload of the operator can be further reduced.

In a specific implementation, for the user, through a selection operation on the sample workpiece 41 displayed in the human-machine interface, a target sample workpiece may be determined from the sample workpieces, i.e., step S22 in fig. 2 is executed to select the sample workpiece.

In an implementation, after the target sample artifact is determined, the quality control items 42 (shown in fig. 4) of the target sample artifact are presented through a human-machine interface. The quality inspection items of the target workpiece corresponding to each work order task may be the same, and the specific content is as described above and will not be described herein again.

In one implementation, the user may execute step S23 in fig. 2 to select the quality control items, i.e., the target quality control items may be determined from the quality control items 42 of the target sample workpiece.

In the specific implementation, referring to fig. 5, the quality inspection task, the quality inspection batch, the sample workpiece, the quality inspection item, and the measurement result are all corresponding relations of 1 to N in sequence, where N is an integer greater than or equal to 1, that is: one of the quality inspection tasks may correspond to at least one of the quality inspection lots, one of the quality inspection lots corresponds to at least one of the sample workpieces, one of the sample workpieces corresponds to at least one of the quality inspection items, and one of the quality inspection items corresponds to at least one of the measurement results.

In a specific implementation, the measurement results may include: the quality inspection item and the sample workpiece, the quality inspection batch and the quality inspection task corresponding to the quality inspection item measure the measuring device information and the measuring time of the quality inspection item, and submit the user identification and the equipment identification of the measuring result.

The measuring device information may be a number of a gauge for performing measurement, the user identifier may be a name of an operator or a user number, and the device identifier may be a number of a machine control device that submits a measurement result or a device ID.

In an embodiment, after a target quality inspection item is confirmed from the plurality of quality inspection items, the target quality inspection item is detected, and a quality inspection process will be described in detail below.

In a specific implementation, after selecting a quality inspection item and determining a target quality inspection item, measurement interaction controls of the target quality inspection item are displayed through a human-computer interface, and the measurement interaction controls may include a measurement data display control 43 (shown in fig. 4) and a measurement control 44 (shown in fig. 4). The numerical value display control 43 is a control for displaying the measurement result of the target quality inspection item, and the measurement control 44 triggers a control for using the measurement device.

In a specific implementation, the measurement interaction control may be triggered to obtain measurement data of the target quality inspection item.

In a specific implementation of the present invention, the measurement data display control 43 may be triggered to display a measurement data input box, and the measurement data input by the user may be acquired through the measurement data input box. After the measurement data is input into the measurement data input box, the machining control device responds to the acquisition of the measurement data and sends the measurement data to the server.

In another embodiment of the present invention, the operator may trigger the measurement control 44, that is, execute step S24 in fig. 2, click the measurement control, and trigger the measurement device to measure the target quality inspection item, so as to obtain the measurement data of the target quality inspection item. Where the textual identification on the measurement control 44 may be "start measurement".

The measurement data is acquired by triggering the measurement control, so that the measurement data measured by the measurement device can be directly acquired, and the acquisition of the measurement data is convenient and quick. Meanwhile, compared with manual input of measurement data, the possibility of output errors in manual input can be avoided by directly acquiring the measurement data measured by the measurement device, so that the accuracy of the measurement data can be ensured, and the data acquisition efficiency can be improved.

In specific implementation, the operation triggered by the operator on the measurement control to obtain the measurement data may be implemented in various ways according to different measurement data receiving devices, which will be described below.

In one embodiment of the present invention, the machining control device responds to the trigger of the measurement control 44 to send a request for using the measurement tool to the server, the server sends a measurement task to the measurement device after receiving the request for using the measurement device sent by the machining control device, and the measurement device executes the measurement task according to the task requirement of the measurement task and sends the measurement result to the data receiving device connected to the machining control device, so as to obtain the measurement data.

In another specific implementation of the present invention, after obtaining the measurement data, the method may further include submitting the measurement result to the server, where the measurement result may include the measurement data.

After the measurement data measured by the measuring device is acquired, the measurement result comprising the measurement data is submitted to the server side, so that the measurement result can be automatically sent to the server side without the operation of an operator, the operation flow of the operator can be reduced, and the workload of the operator can be further reduced.

In another embodiment of the present invention, after the measuring device obtains the measurement data through detection, the measuring device sends the measurement data to the relay device, and sends the measurement data to the server through the relay device, and the server sends the measurement data received by the measurement data to the machining control device, so as to obtain the measurement data.

The relay device receives the measurement data sent by the measurement device and sends the measurement data to the server side, and the server side sends the measurement data to the quality inspection device, so that the measurement data can be transmitted from the measurement device to the machining control device when the machining control device does not have the capability of directly receiving the measurement data measured by the measurement device.

In a specific implementation, the measurement device may be a bluetooth measurement device, and measurement data of the bluetooth measurement device is sent to a receiving end that receives the measurement data through a bluetooth communication protocol.

The data is transmitted to a receiving device for receiving the measured data through a Bluetooth communication protocol, so that the receiving device has Bluetooth receiving capability, namely can receive the data measured by the Bluetooth measuring device, and can complete the receiving and transmitting of the measured data on various devices.

In a specific implementation, the measurement device measures that the target quality inspection item is executed after associating with the measurement device, and referring to fig. 4, the associating with the measurement device may be that the machining control device responds to a trigger operation of a binding measurement device control 45 displayed in a human-computer interface, displays a measurement device binding request control, and responds to a trigger operation of an operator on the measurement device binding request control, and triggers the machining control device to send a measurement device binding request to the server; and displaying a request result returned from the server through the human-computer interface.

In a specific implementation, the measurement data receiving ends required to be bound in the binding request are different according to different measurement data receiving ends of the measurement device. The binding of different measurement data receiving terminals to the measurement device is described in detail below.

In a specific implementation of the present invention, the measurement data receiving end is an adapter connected to the machining control device, and the machining control device transmits the device ID of the adapter to the server end, so as to bind the adapter and the measurement device.

In another specific implementation of the present invention, the measurement data receiving end is a relay device, and the machining control device transmits the device ID of the relay device to the service end, so as to bind the relay device and the quality inspection of the measurement device.

In order to facilitate the understanding of the technical solution of the present invention for those skilled in the art, the following will explain the binding principle of the measuring device in detail:

in specific implementation, by clicking a measuring tool binding request control in a measuring tool binding interface by an operator, the machining control device sends a measuring tool binding request to a server in response to a trigger operation on the measuring tool binding request control, where the measuring tool binding request may include a device number or a device ID of the receiving end; the server side returns verification information to the machining control device according to the measuring tool binding request; inputting and confirming verification information displayed on the machining control device on the measuring device by an operator; and the server side verifies the verification information input into the measuring device, and returns a request result to the machining control device after the verification is passed, namely the binding between the measuring device and the receiving terminal is completed. After the binding operation is completed, the display interface of the machining control device returns to the measurement interface, and data measurement can be performed.

In a specific implementation, in order to make the detection result easy for an operator to interpret and analyze, after the measurement data is acquired, the workpiece quality inspection method may further include analyzing the measurement data of the target workpiece.

In an implementation, the analysis result of the measurement data will be displayed through the human-machine interface shown in fig. 3, and the analysis of the measurement data of the target workpiece may include at least one of the following analysis contents:

according to the minimum value and the range of the maximum value of each quality inspection item determined by the quality inspection requirement, counting the qualified conditions of the measurement data of the quality inspection items;

counting the quality inspection task and inspection results of a plurality of quality inspection batches of the quality inspection task in real time, wherein the inspection results can comprise at least one of qualified number, unqualified number and number to be inspected in the sample workpieces;

and counting the qualification rates of the quality inspection items of the quality inspection tasks and the sample workpieces of the quality inspection batches of the quality inspection tasks.

It will be appreciated by those skilled in the art that statistical analysis of the test data is common knowledge in the art and will not be described in detail herein.

In a specific implementation, the test result may be summarized and displayed in the form of a chart or the like, for example, the test result may be displayed in the form of a pie chart, a bar chart, a graph or the like, which is not limited herein.

Through counting up measured data and showing with the form of diagram, can make operating personnel look over the testing result of work piece directly perceivedly, the operating personnel of being convenient for feedbacks the testing result at the very first time, and the processingquality of understanding the work piece that can be more swift can ensure the normal clear of work piece processing.

An embodiment of the present invention further provides a workpiece quality inspection apparatus, which has a schematic structural diagram shown in fig. 6, and specifically includes:

the work reporting number acquiring unit 61 is suitable for acquiring the work reporting number of a target workpiece, wherein the target workpiece is a workpiece to be quality-checked and determined by a quality check task issued from a server, and the quality check task comprises a quality check requirement and a quality check plan;

the matching unit 62 is adapted to match the quality inspection items corresponding to the quality inspection tasks when the number of reported jobs is greater than or equal to the quality inspection number of the quality inspection batch in the quality inspection plan;

and the detection unit 63 is adapted to detect the target workpiece corresponding to the quality inspection task according to the quality inspection item to obtain the measurement data of the target workpiece.

In a specific implementation, the matching unit 62 may include:

a quality inspection lot adding subunit 621, adapted to add the quality inspection lot according to the quality inspection plan;

the quality inspection item selection subunit 622 is adapted to select the quality inspection item of the target workpiece corresponding to the quality inspection lot.

In a specific implementation, the quality inspection lot adding subunit 621 may include:

the request display module is suitable for displaying a quality inspection request prompt through a human-computer interface when the reported number is greater than or equal to the quality inspection number;

the confirmation display module is suitable for responding to the confirmation operation prompted by the quality inspection request and displaying the quality inspection batch adding control;

and the quality inspection batch adding module is suitable for responding to the trigger of the quality inspection batch control and adding the quality inspection batch.

In a specific implementation, the quality inspection item selection subunit 622 may include:

the sample workpiece determining module is suitable for determining sample workpieces from the target workpieces corresponding to the number of reported workpieces and displaying the sample workpieces through a human-computer interface;

the target sample workpiece determining module is used for determining a target sample workpiece from the sample workpieces in response to the selection operation of the sample workpieces and displaying quality inspection items of the target sample workpiece through the human-computer interface;

and the target quality inspection item confirmation module is suitable for responding to the selection operation of the quality inspection item and determining the target quality inspection item.

In an embodiment, one of the quality inspection tasks corresponds to at least one of the quality inspection lots, one of the quality inspection lots corresponds to at least one of the sample workpieces, one of the sample workpieces corresponds to at least one of the quality inspection items, and one of the quality inspection items corresponds to at least one of the measurement results.

Wherein the measurement result may include: the quality inspection item, the sample workpiece, the quality inspection batch and the quality inspection task corresponding to the quality inspection item, the measurement device information and the measurement time of the quality inspection item, and the user identification and the equipment identification submitting the measurement result.

With continued reference to fig. 6, in a specific implementation, the detecting unit 63 may include:

a measurement interaction control display subunit 631 adapted to display a measurement interaction control of a target quality inspection item of the target workpiece through a human-computer interface;

and the measurement data obtaining subunit 632 is adapted to obtain the measurement data of the target quality inspection item in response to the triggering operation on the measurement interaction control.

In a specific implementation, the measurement interaction control includes a measurement data display control and a measurement control, and the measurement data obtaining subunit 632 may include any one of the following modules:

the measurement data acquisition module is suitable for responding to the triggering of the measurement control, triggering the measurement device to measure the target quality inspection item, and obtaining the measurement data of the target quality inspection item;

and the input data acquisition module is suitable for responding to the trigger of the measurement data display control, acquiring the measurement data input by a user and obtaining the measurement data of the target quality inspection item.

In another specific implementation of the present invention, the measurement data obtaining subunit 632 may further include: and the measuring device association module is suitable for associating the workpiece quality inspection device with the measuring device before the measuring data acquisition module triggers the measuring device to measure the target quality inspection item.

In a specific implementation, the measurement device association module may include: the binding request control display sub-module is suitable for responding to the trigger operation of the binding measuring tool control displayed on the man-machine interface and displaying the measuring tool binding request control; the binding request sending submodule is suitable for responding to the triggering operation of the measuring tool binding request control and sending a measuring tool binding request to the server; and the request result display submodule is suitable for displaying the request result returned from the server through the human-computer interface.

In an implementation, the workpiece quality inspection apparatus 60 may further include: and the measurement data analysis unit is suitable for analyzing the measurement data of the target workpiece and displaying the analysis result of the measurement data through a human-computer interface.

Wherein the measurement data analysis unit may comprise at least one of the following subunits:

the maximum and minimum value analysis subunit is suitable for determining the qualified condition of the measurement data of the quality inspection items according to the minimum value and the maximum value range of each quality inspection item determined by the quality inspection requirement;

the sample workpiece quality inspection quantity counting subunit is suitable for counting the counting results of the quality inspection task and the sample workpieces of the quality inspection batches of the quality inspection task in real time, wherein the counting results comprise at least one of the following results: the qualified number, the unqualified number and the number to be inspected in the plurality of sample workpieces;

and the sample workpiece qualification rate counting subunit is suitable for counting the qualification rates of the quality inspection items of the sample workpieces of the quality inspection tasks and the quality inspection batches of the quality inspection tasks.

The noun explanation, the working principle, the specific implementation and the beneficial effects related to the workpiece quality inspection device in the embodiment of the present invention can be referred to the numerical control system control method in the embodiment of the present invention, and are not described herein again.

The embodiment of the present invention further provides a computer-readable storage medium, where computer instructions are stored, and when the computer instructions are executed, the steps of the workpiece quality inspection method may be executed.

The computer readable storage medium may be an optical disc, a mechanical hard disk, a solid state hard disk, etc. The computer readable storage medium can be applied to a machine head of a numerical control machine tool, or can also be applied to other machine tool control ends, such as a smart phone, a smart tablet computer, a portable computer, a mechanical arm holding end, an AGV holding end, a numerical control machine tool holding end and the like.

An embodiment of the present invention further provides a numerical control system, which includes a memory and a processor, where the memory may store a computer instruction capable of running on the processor, and the processor executes the step of the workpiece quality inspection method when running the computer instruction.

The embodiment of the invention also provides a workpiece quality inspection system, which will be described in detail below with reference to fig. 7.

Referring to fig. 7, in one embodiment of the present invention, the workpiece quality inspection system 70 may include: a service end 71, a measuring device 72, at least one machine control device 73 and at least one machine body 74 for performing the machining of a workpiece.

In a specific implementation, the server 71 is adapted to issue a quality inspection task to the machining control device 73 and a measurement task to the measurement device 72, the machine tool body 74 is adapted to perform machining of a target workpiece, and the machining control device 73 is adapted to control the machine tool body 74.

The quality inspection task issued by the server 71 to the machining control device 73 may be sent by an IPORT protocol, or may be sent by other communication protocols such as a WEB SERVICE (WEB SERVICE) protocol and an ZMQ protocol, which is not limited herein.

In a specific implementation, the machining control device 74 may include any one of the workpiece quality inspection device and the numerical control system, and the explanation of the workpiece quality inspection device and the numerical control system is as described above and will not be repeated herein.

In a specific implementation, the measuring device 72 may include:

a digital display gauge 721 for measuring the workpiece size of the target workpiece to obtain measurement data;

and the transmitter 722 is suitable for being connected with the digital display measuring tool through a serial port and transmitting the measurement data measured by the digital display measuring tool 721 to a measurement data receiving end.

In a specific implementation, the transmitter 722 is a bluetooth transmitter adapted to transmit the measurement data via a bluetooth communication protocol.

In a specific implementation, the workpiece quality inspection system 70 may further include an adapter 75, the adapter 75 may be connected to the machining control device 73 through a USB interface, and the adapter 75 is adapted to receive the measurement data sent by the measurement device 72. In other embodiments, the adapter 75 may be connected to the machining control device 73 by a bus or other means, and is not limited in particular.

In a specific implementation, the adapter 75 is a bluetooth adapter adapted to receive the measurement data sent by the measurement device 72 through a bluetooth communication protocol.

In order to facilitate understanding of the present invention by those skilled in the art, the following will explain the detection principle of the present embodiment in detail:

after receiving the quality inspection task issued by the server 71, the machining control device 73 controls the machine tool body 74 to execute workpiece machining and report the workpiece to the server 71, when the reported number of jobs reaches the quality control plan, the server 71 sends a prompt to add a quality control lot to the machining control device, after the machining control device 73 completes the quality inspection lot addition and the selection of the target quality inspection item, by responding to the triggering operation of the measurement control, sending a measurement request to the server 71, after receiving the measurement request, the server 71 sends a measurement task to the measurement device 72, the measurement device 72 obtains measurement data through measurement and detection, and transmits the measurement data to the adapter 75, the adapter 75 transmits the received measurement data to the machining control device 73, the machining control device 73 sends the measurement data to the server 71, and the detection of the workpiece and the acquisition of the measurement data are realized.

With continued reference to fig. 7, in another embodiment of the present invention, the measurement data sent by the measurement device 72 may be received by a relay device 76. In a specific implementation, the relay device 76 is adapted to send the measurement data to the server 71 after receiving the measurement data sent by the measurement device 72. After receiving the measurement data sent by the relay device 76, the server 71 sends the measurement data to the machining control device 73.

In a specific implementation, the relay device 76 may be a smart phone, a smart tablet, a portable computer, a robot hand-held terminal, an AGV hand-held terminal, a numerical control machine hand-held terminal, or the like, which can receive and transmit measurement data, and is not limited herein.

In a specific implementation, the relay device 76 is adapted to receive the measurement data of the measurement device 72 through a bluetooth communication protocol, and send the measurement data to the server 71 through a WEB SERVICE (WEB SERVICE) protocol.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. A method of inspecting a workpiece, comprising:

the method comprises the steps of obtaining the number of reported workpieces of a target workpiece, wherein the target workpiece is a workpiece needing quality inspection and determined by a quality inspection task issued from a server, the quality inspection task comprises a quality inspection requirement and a quality inspection plan, and the quality inspection requirement comprises a quality inspection item needing to be detected for the target workpiece and a technical requirement corresponding to the quality inspection item;

when the reported working number is greater than or equal to the quality inspection number of the quality inspection batch in the quality inspection plan, matching the quality inspection item corresponding to the quality inspection task;

and detecting the target workpiece corresponding to the quality inspection task according to the quality inspection item to obtain the measurement data of the target workpiece.

2. The method of claim 1, wherein the matching of the quality inspection items corresponding to the quality inspection task comprises:

adding the quality inspection batches according to the quality inspection plan;

and selecting the quality inspection item of the target workpiece corresponding to the quality inspection batch.

3. The method of claim 2, wherein said adding quality lot according to said quality control plan comprises:

when the reported number of jobs is greater than or equal to the quality inspection number, displaying a quality inspection request prompt through a human-computer interface; responding to the confirmation operation prompted by the quality inspection request, and displaying a quality inspection batch adding control;

and adding the quality inspection batch in response to the triggering of the quality inspection batch control.

4. The method of claim 2, wherein said selecting the target quality inspection item of the quality inspection lot comprises:

determining sample workpieces from the target workpieces corresponding to the reported number of workers, and displaying the sample workpieces through a human-computer interface;

in response to the selection operation of the sample workpieces, determining target sample workpieces from the sample workpieces, and displaying quality inspection items of the target sample workpieces through the human-computer interface;

and determining a target quality inspection item in response to the selection operation of the quality inspection item.

5. The method of claim 4, wherein one of the quality inspection tasks corresponds to at least one of the quality inspection lots, one of the quality inspection lots corresponds to at least one of the sample workpieces, one of the sample workpieces corresponds to at least one of the quality inspection items, and one of the quality inspection items corresponds to at least one of the measurement results.

6. The method of claim 5, wherein the measurement results comprise at least: the quality inspection item and the sample workpiece, the quality inspection batch and the quality inspection task corresponding to the quality inspection item measure the measuring device information and the measuring time of the quality inspection item, and submit the user identification and the equipment identification of the measuring result.

7. The workpiece quality inspection method according to claim 1, wherein the detecting the target workpiece corresponding to the quality inspection task according to the quality inspection item comprises:

displaying a measurement interaction control of a target quality inspection item of the target workpiece through a human-computer interface;

and responding to the triggering operation of the measurement interaction control to obtain the measurement data of the target quality inspection item.

8. The method of claim 7, wherein the measurement interaction control comprises a measurement data display control and a measurement control;

the obtaining of the measurement data of the target quality inspection item in response to the triggering of the measurement interaction control includes any one of:

triggering a measuring device to measure the target quality inspection item in response to the triggering of the measuring control to obtain the measuring data of the target quality inspection item;

and responding to the trigger of the measurement data display control, acquiring the measurement data input by a user, and obtaining the measurement data of the target quality inspection item.

9. The method of claim 8, wherein the triggering measurement device measures the target quality inspection item to obtain measurement data of the target quality inspection item, and the method comprises any one of the following steps:

responding to the trigger of the measurement control, sending a request for using the measurement device to the server, and receiving measurement data sent from the measurement device to obtain the measurement data of the target quality inspection item;

responding to the trigger of the measurement control, sending a request for using the measurement device to the server, receiving measurement data sent from the measurement device to obtain the measurement data of the target quality inspection item, and submitting a measurement result to the server, wherein the measurement result comprises the measurement data; and responding to the trigger of the measurement control, sending a request for using the measurement device to the server, and receiving measurement data returned from the server to obtain the measurement data of the target quality inspection item.

10. The method of claim 8, wherein the measuring of the target quality inspection item by the measuring device is performed after associating the measuring device;

the associating the measurement device comprises:

responding to the trigger operation of binding the measuring device control displayed on the human-computer interface, and displaying the measuring device binding request control;

responding to the triggering operation of the measuring device binding request control, and sending a measuring device binding request to the server;

and displaying a request result returned from the server through the human-computer interface.

11. The method according to claim 8, wherein the measuring device is a bluetooth measuring device, and the measurement data of the bluetooth measuring device is transmitted to a receiving end for receiving the measurement data through a bluetooth communication protocol.

12. The method of claim 1, further comprising: and analyzing the measurement data of the target workpiece, and displaying the analysis result of the measurement data through a human-computer interface.

13. The method of claim 12, wherein analyzing the metrology data of the target workpiece comprises at least one of:

determining the qualified condition of the measurement data of the quality inspection item according to the minimum value and the maximum value range of each quality inspection item determined by the quality inspection requirement;

counting in real time inspection results of the quality inspection task and a plurality of sample workpieces of a plurality of quality inspection batches of the quality inspection task, wherein the inspection results include at least one of the following: the qualified number, the unqualified number and the number to be inspected in the plurality of sample workpieces;

14. A workpiece quality inspection apparatus, comprising:

the system comprises a reported working number acquisition unit, a quality inspection task processing unit and a quality inspection task processing unit, wherein the reported working number acquisition unit is suitable for automatically acquiring the reported working number of a target workpiece, the target workpiece is a workpiece to be inspected, which is determined by a quality inspection task issued from a server, the quality inspection task comprises a quality inspection requirement and a quality inspection plan, and the quality inspection requirement comprises a quality inspection item to be inspected for the target workpiece and a technical requirement corresponding to the quality inspection item;

the matching unit is suitable for matching the quality inspection items corresponding to the quality inspection tasks when the reported working number is greater than or equal to the quality inspection number of the quality inspection batch in the quality inspection plan;

and the detection unit is suitable for detecting the target workpiece corresponding to the quality inspection task according to the quality inspection item to obtain the measurement data of the target workpiece.

15. The workpiece quality inspection apparatus of claim 14, wherein the matching unit comprises:

the quality inspection batch adding subunit is suitable for adding the quality inspection batch according to the quality inspection plan;

and the quality inspection item selection subunit is suitable for selecting the quality inspection items of the target workpieces corresponding to the quality inspection batches.

16. The workpiece quality inspection apparatus of claim 14, wherein the inspection unit comprises:

the measurement interaction control display subunit is suitable for displaying the measurement interaction control of the target quality inspection item of the target workpiece through a human-computer interface;

and the measurement data acquisition subunit is suitable for responding to the triggering operation of the measurement interaction control to obtain the measurement data of the target quality inspection item.

17. The apparatus of claim 16, wherein the measurement interaction control comprises a measurement data display control and a measurement control;

the measurement data acquisition subunit comprises any one of the following modules:

18. The apparatus according to claim 17, wherein the measuring device is a bluetooth measuring device, and the measurement data of the bluetooth measuring device is transmitted to a receiving end for receiving the measurement data through a bluetooth communication protocol.

19. A computer readable storage medium having computer instructions stored thereon, wherein the computer instructions when executed perform the steps of the method for quality inspection of a workpiece according to any one of claims 1 to 13.

20. A numerical control system comprising a memory and a processor, said memory having stored thereon computer instructions executable on said processor, wherein said processor, when executing said computer instructions, performs the steps of the method of quality inspection of a workpiece according to any one of claims 1 to 13.

21. A workpiece quality inspection system, comprising:

the system comprises a server, a measuring device, at least one machining control device and at least one machine tool body for executing workpiece machining;

the server is suitable for issuing a quality inspection task to the machining control device and issuing a measurement task to the measurement device;

the machine tool body is suitable for processing a target workpiece;

the machining control device is adapted to control the machine tool body, and includes a workpiece quality inspection device according to any one of claims 14 to 18, or a numerical control system according to claim 20.

22. The workpiece quality inspection system of claim 21, wherein the measurement device comprises:

the digital display measuring tool is used for measuring the workpiece size of the target workpiece to obtain measurement data;

and the transmitter is suitable for being connected with the digital display measuring tool through a serial port and transmitting the measuring data measured by the digital display measuring tool.

23. The workpiece quality inspection system of claim 22, wherein the transmitter is a bluetooth transmitter adapted to transmit the measurement data via a bluetooth communication protocol.

24. The workpiece quality inspection system of claim 21, further comprising an adapter connected to the machining control device via a USB interface, the adapter adapted to receive the measurement data sent by the measurement device.

25. The workpiece quality inspection system of claim 24, wherein the adapter is a bluetooth adapter adapted to receive the measurement data transmitted by the measurement device via a bluetooth communication protocol.

26. The workpiece quality inspection system of claim 21, further comprising a relay device adapted to receive the measurement data sent by the measurement device and send the measurement data to the server.

27. The workpiece quality inspection system of claim 26, wherein the relay device is adapted to receive the measurement data via a bluetooth communication protocol and to transmit the measurement data to the server via a WEB SERVICE protocol.