CN114563983A - Stripe processing method, stripe processing device, electronic apparatus, and storage medium - Google Patents

Abstract

The application discloses a stripe processing method, a stripe processing device, electronic equipment and a storage medium, wherein the stripe processing method comprises the steps of obtaining stripe information of a stripe to be processed; loading the stripe information to a corresponding preset macro program to obtain a processing parameter corresponding to the stripe information; and controlling the numerical control machine tool to work based on the machining parameters. The method realizes automatic control of the numerical control machine tool to process the to-be-processed stripes according to the stripe information of the to-be-processed stripes, does not need programmers to manually program numerical control processing programs, and improves the processing efficiency of the to-be-processed stripes.

Description

Stripe processing method, stripe processing device, electronic apparatus, and storage medium

Technical Field

The present disclosure relates to the field of numerical control machining technologies, and in particular, to a stripe machining method, a stripe machining apparatus, an electronic device, and a storage medium.

Background

The stripe is widely applied to various fields in daily production and life, for example, the anti-slip stripe is used for increasing the surface friction of an object, improving the surface visual effect of the object or other special requirements and the like.

Milling is often used to machine various striations, as milling can machine complex shapes and signs. However, in the process of milling the stripes in the prior art, a programmer is required to manually compile different numerical control processing programs for different stripes, which takes a long time, and results in low processing efficiency of the stripes.

Disclosure of Invention

In view of the above problems, the present application proposes a stripe processing method, a stripe processing apparatus, an electronic device, and a storage medium to overcome or at least partially solve the above problems of the prior art.

In a first aspect, an embodiment of the present application provides a stripe processing method, including: acquiring stripe information of a stripe to be processed; loading the stripe information to a corresponding preset macro program to obtain a processing parameter corresponding to the stripe information; and controlling the numerical control machine tool to work based on the machining parameters.

In a second aspect, an embodiment of the present application provides a stripe processing apparatus, which includes an obtaining module, a loading module, and a control module. The acquisition module is used for acquiring stripe information of the stripes to be processed; the loading module is used for loading the stripe information to a corresponding preset macroprogram to obtain a processing parameter corresponding to the stripe information; and the control module is used for controlling the numerical control machine tool to work based on the machining parameters.

In a third aspect, an embodiment of the present application provides an electronic device, including: a memory; one or more processors coupled with the memory; one or more application programs, wherein the one or more application programs are stored in the memory and configured to be executed by the one or more processors, the one or more application programs being configured to perform the striping method as provided in the first aspect above.

In a fourth aspect, an embodiment of the present application provides a computer-readable storage medium, where a program code is stored in the computer-readable storage medium, and the program code can be called by a processor to execute the stripe processing method provided in the first aspect.

The scheme that this application provided is through acquireing the stripe information of waiting to process the stripe to loading the stripe information to the macroscope of corresponding predetermineeing, obtain the machining parameter that waits to process the stripe and correspond, and based on machining parameter control digit control machine tool work, realized according to the stripe information of waiting to process the stripe, the stripe is waited to process in automatic control digit control machine tool processing, need not the programming personnel and has worked out the numerical control procedure by hand, has promoted the machining efficiency of waiting to process the stripe.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 shows a scene schematic diagram of a stripe processing system according to an embodiment of the present application.

Fig. 2 is a schematic flow chart illustrating a stripe processing method according to an embodiment of the present disclosure.

Fig. 3 shows another schematic flow chart of the stripe processing method provided in the embodiment of the present application.

Fig. 4 shows a schematic flow chart of a stripe processing method provided in an embodiment of the present application.

Fig. 5 shows another schematic flow chart of the stripe processing method provided in the embodiment of the present application.

Fig. 6 shows a block diagram of a structure of a stripe processing apparatus according to an embodiment of the present application.

Fig. 7 shows a functional block diagram of an electronic device provided in an embodiment of the present application.

Fig. 8 illustrates a computer-readable storage medium provided in an embodiment of the present application for storing or carrying program codes for implementing a stripe processing method provided in accordance with an embodiment of the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

The following disclosure provides many different embodiments or examples for implementing different features of the application. In order to simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

The stripe is widely applied to various fields in daily production and life, for example, the anti-slip stripe is used for increasing the surface friction of an object, improving the surface visual effect of the object or other special requirements and the like.

Milling is often used to machine various striations, as milling can machine complex shapes and signs. However, in the existing stripe milling process, a programmer needs to manually program different numerical control processing programs for different stripes, which takes a long time, resulting in low stripe processing efficiency.

In view of the above problems, the inventor has conducted long-term research and has proposed the stripe processing method, the stripe processing apparatus, the electronic device, and the storage medium provided in the embodiments of the present application, so as to automatically control the numerical control machine tool to process the to-be-processed stripe according to the stripe information of the to-be-processed stripe, without requiring a programmer to manually program a numerical control processing program, thereby improving the processing efficiency of the to-be-processed stripe.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

Referring to fig. 1, a schematic view of an application scenario of a stripe processing system provided in an embodiment of the present application is shown, and the stripe processing system may include a control device 100 and a numerically controlled machine 200, where the control device 100 may be in communication with the numerically controlled machine 200, and the control device 100 may be configured to control the numerically controlled machine 200 to operate.

Wherein, the control device 100 may be installed in the numerical control machine 200 and integrated with the numerical control machine 200, for example, the control device 100 may be embedded in the numerical control machine 200 and used as a control center of the numerical control machine 200; the control device 100 may also be a separate device connected to the numerical control machine tool 200 through a wireless network or a communication cable.

Referring to fig. 2, a flowchart of a stripe processing method according to an embodiment of the present application is shown. In a specific embodiment, the stripe processing method may be applied to the control device 100 in the stripe processing system shown in fig. 1, and the flow shown in fig. 2 will be described in detail by taking the control device 100 as an example, and the stripe processing method may include the following steps S110 to S130.

Step S110: and acquiring stripe information of the stripes to be processed.

In this embodiment of the application, the workpiece to be processed is a cylindrical workpiece, and the stripe information of the stripe to be processed of the cylindrical workpiece may be used to represent parameter information of the stripe to be processed, for example, the stripe information may include: stripe type, stripe depth, stripe width, feed coordinate, cutting amount, retracting coordinate, feed amount, stripe included angle and the like. The stripe type may include diamond stripe, straight stripe, ring stripe, triangular stripe, rectangular stripe, and diagonal stripe.

In some embodiments, the control device may include a display panel, and when the user needs to process the stripe to be processed, the user may input stripe information of the stripe to be processed on the display panel, for example, the user may input stripe information of the stripe to be processed on a key of the display panel, or input stripe information of the stripe to be processed by handwriting on the display panel, and the control device may receive the stripe information input by the user.

In some embodiments, the striation processing system may further include a terminal device, which may be communicatively coupled to the control device. When a user needs to process the stripe to be processed, the stripe information of the stripe to be processed can be input into the terminal device, the terminal device receives and responds to the stripe information, the stripe information is sent to the control device, and the control device can receive the stripe information sent by the terminal device.

Step S120: and loading the stripe information to a corresponding preset macro program to obtain the processing parameters corresponding to the stripe information.

In this embodiment of the present application, the preset macro program is a modular program obtained by using modular programming, and the preset macro program corresponds to the stripe information, that is, different stripe information corresponds to different preset macro programs. After the control device obtains the stripe information of the stripe to be processed, the control device can call a corresponding preset macro program according to the stripe information, and load the stripe information to the preset macro program, the preset macro program receives and responds to the stripe information, the control device can determine the processing parameters corresponding to the stripe information according to the stripe information and output the processing parameters to the control device, and the control device can receive the processing parameters output by the preset macro program. The processing parameters may include a processing angle, a processing width, and the like.

In some embodiments, the stripe information may include a stripe type and a stripe width, and the preset macro program may correspond to the stripe type since the corresponding processing parameters are different for different types of stripes. The control device can call a corresponding preset macro program according to the stripe type and load the stripe width to the preset macro program, the preset macro program receives and responds to the stripe width, the processing parameters corresponding to the stripe type can be determined according to the stripe width and are output to the control device, and the control device can receive the processing parameters output by the preset macro program.

As an embodiment, the processing parameter may be a processing angle, and the preset macro program may receive and respond to the stripe width, and may calculate the circumference of the cylindrical workpiece according to formula one according to the diameter of the cylindrical workpiece.

The formula I is as follows: and #15 is #2 × pi, wherein #15 is the circumference of the cylindrical workpiece, #2 is the diameter of the cylindrical workpiece, and pi is the circumference ratio.

The preset macro program can calculate the angle increment corresponding to the stripe type according to the formula two according to the #15 and the stripe width.

The formula II is as follows: and #16 [ #4/#15 ]. 360 °, where #16 is the angular increment corresponding to the fringe type and #4 is the fringe width.

The preset macro program can determine #16 as the machining angle corresponding to the stripe type.

As an embodiment, the processing parameter may be a processing width, and the preset macro program may receive and respond to the stripe width, and may determine the stripe width as the processing width corresponding to the stripe type.

Step S130: and controlling the numerical control machine tool to work based on the machining parameters.

In the embodiment of the application, after the control device loads the stripe information to the corresponding preset macroprogram and obtains the processing parameters corresponding to the stripe information, the control device can control the numerical control machine tool to work based on the processing parameters, the numerical control machine tool receives and responds to the processing parameters, and the to-be-processed stripes are processed on the surface of the cylindrical workpiece, so that the purpose that the numerical control machine tool is automatically controlled to process the to-be-processed stripes according to the stripe information of the to-be-processed stripes is realized, a programmer is not required to manually program the numerical control processing program, and the processing efficiency of the stripes is improved.

The scheme that this application provided is through acquireing the stripe information of waiting to process the stripe to loading the stripe information to the macroscope of corresponding predetermineeing, obtain the machining parameter that waits to process the stripe and correspond, and based on machining parameter control digit control machine tool work, realized according to the stripe information of waiting to process the stripe, the stripe is waited to process in automatic control digit control machine tool processing, need not the programming personnel and has worked out the numerical control procedure by hand, has promoted the machining efficiency of waiting to process the stripe.

Referring to fig. 3, a flowchart of a stripe processing method according to another embodiment of the present application is shown. In a specific embodiment, the stripe processing method may be applied to the control device 100 in the stripe processing system shown in fig. 1, and the flow shown in fig. 3 will be described in detail below by taking the control device 100 as an example, and the stripe processing method may include the following steps S210 to S260.

Step S210: and acquiring stripe information of the stripes to be processed.

In this embodiment, the step S210 may refer to the content of the corresponding step in the foregoing embodiments, and is not described herein again.

Step S220: it is determined whether the stripe type is a preset stripe type.

In this embodiment, the stripe information may include a stripe type and a stripe width. The preset stripe type is a type of a stripe which can be processed by a numerical control machine tool and is preset by a user, after the control equipment obtains the type of the stripe to be processed and the width of the stripe, the type assignment of the stripe type can be compared with a preset type value of the preset stripe type to obtain a comparison result, and whether the stripe type is the preset stripe type or not can be determined according to the comparison result so as to determine whether the numerical control machine tool can process the stripe to be processed corresponding to the stripe type or not. The comparison result may include a first result used for representing that the type assignment belongs to the preset type value and a second result used for representing that the type assignment does not belong to the preset type value.

When the control equipment compares the type assignment of the stripe type with a preset type value of a preset stripe type to obtain a first result, determining the stripe type as the preset stripe type; and when the control equipment compares the type assignment of the stripe type with a preset type value of the preset stripe type to obtain a second result, determining that the stripe type is not the preset stripe type.

In an application scenario, the assignment of the stripe type may be denoted as # 1; the predetermined stripe types may include a diamond pattern, a straight stripe, a ring pattern, a triangle pattern, a rectangle pattern, a diagonal stripe, etc., the predetermined type values may include a first predetermined type value, a second predetermined type value, a third predetermined type value, a fourth predetermined type value, a fifth predetermined type value, a sixth predetermined type value, the diamond pattern corresponds to the first predetermined type value, the straight stripe corresponds to the second predetermined type value, the ring pattern corresponds to the third predetermined type value, the triangle pattern corresponds to the fourth predetermined type value, the rectangle pattern corresponds to the fifth predetermined type value, the diagonal stripe corresponds to the sixth predetermined type value, and the first predetermined type value is 1, the second predetermined type value is 2, the third predetermined type value is 3, the fourth predetermined type value is 4, the fifth predetermined type value is 5, the sixth predetermined type value is 6.

When the #1 is equal to 1, the control device compares the #1 with a preset type value, a first result can be obtained, and if the stripe type is determined to be a preset stripe type and is a rhombus stripe; when the number #1 is 2, the control device compares the number #1 with a preset type value, a first result can be obtained, and if the stripe type is determined to be a preset stripe type and is a straight stripe; when the number #1 is 3, the control device compares the number #1 with a preset type value, a first result can be obtained, and if the stripe type is determined to be a preset stripe type and is a ring stripe; when the number #1 is 4, the control device compares the number #1 with a preset type value, a first result can be obtained, and if the number #1 is 4, the stripe type is determined to be a preset stripe type and is a triangle stripe; when the #1 is 5, the control device compares the #1 with a preset type value, a first result can be obtained, and if the stripe type is determined to be a preset stripe type and is a rectangular stripe; when the number #1 is 6, the control device compares the number #1 with a preset type value, a first result can be obtained, and if the stripe type is determined to be the preset stripe type and is the oblique stripe; when #1 is 7, the control apparatus compares #1 with a preset type value, a second result may be obtained, and it is determined that the stripe type is not the preset stripe type.

It should be noted that the assignment of the type of the stripe, the type of the preset stripe, the preset type value, and the like are not limited herein, and the setting may be specifically performed according to actual requirements.

Step S230: and when the stripe type is determined to be the preset stripe type, calling a corresponding preset macro program according to the stripe type.

In this embodiment, when determining that the stripe type is the preset stripe type, the control device may call the corresponding preset macro program according to the stripe type, so as to ensure accuracy of calling the preset macro program and ensure accuracy of processing the stripe to be processed.

For example, the preset stripe types may include a diamond stripe, a straight stripe, a circular stripe, a triangular stripe, a rectangular stripe, a diagonal stripe, etc., and the preset macro program may include a first preset macro program, a second preset macro program, a third preset macro program, a fourth preset macro program, a fifth preset macro program, and a sixth preset macro program, where the first preset macro program corresponds to the diamond stripe, the second preset macro program corresponds to the straight stripe, the third preset macro program corresponds to the circular stripe, the fourth preset macro program corresponds to the triangular stripe, the fifth preset macro program corresponds to the rectangular stripe, and the sixth preset macro program corresponds to the diagonal stripe.

When the control equipment determines that the stripe type is the rhombus stripe, a first preset macro program can be called; when the control equipment determines that the stripe type is a straight stripe, a second preset macro program can be called; when determining that the stripe type is a ring stripe, the control device may call a third preset macro program; when the control device determines that the stripe type is the triangle stripe, a fourth preset macro program can be called; when the control equipment determines that the stripe type is a rectangular stripe, a fifth preset macro program can be called; the control device may call a sixth preset macro procedure when determining that the stripe type is a diagonal stripe.

It should be noted that the type of the preset stripe and the type of the preset macro program are not limited herein, and may be specifically set according to actual requirements.

Step S240: and loading the stripe width to a preset macro program, so that the preset macro program determines the processing parameters corresponding to the stripe type according to the stripe width.

Step S250: and receiving the processing parameters output by the preset macro program.

Step S260: and controlling the numerical control machine tool to work based on the machining parameters.

In this embodiment, step S240, step S250, and step S260 may refer to the content of the corresponding steps in the foregoing embodiments, and are not described herein again.

According to the scheme provided by the embodiment, the stripe information of the stripe to be processed is acquired, whether the stripe type is the preset stripe type is determined, when the stripe type is determined to be the preset stripe type, the corresponding preset macroprogram is called according to the stripe type, the stripe width is loaded to the preset macroprogram, so that the preset macroprogram determines the processing parameters corresponding to the stripe type according to the stripe width, the processing parameters output by the preset macroprogram are received, the numerical control machine tool is controlled to work based on the processing parameters, the preset macroprogram corresponding to the stripe type is called according to the stripe type, the accuracy of calling the preset macroprogram is guaranteed, and the processing accuracy of the stripe to be processed can be guaranteed.

Referring to fig. 4, a flowchart of a stripe processing method according to still another embodiment of the present application is shown. In a specific embodiment, the stripe processing method may be applied to the control device 100 in the stripe processing system shown in fig. 1, and the flow shown in fig. 4 will be described in detail below by taking the control device 100 as an example, and the stripe processing method may include the following steps S310 to S370.

Step S310: and acquiring stripe information of the stripes to be processed.

Step S320: and calling a corresponding preset macro program according to the stripe type.

In this embodiment, step S310 and step S320 may refer to the content of the corresponding steps in the foregoing embodiments, and are not described herein again.

Step S330: and determining whether the feed depth of the numerical control machine tool is less than or equal to the depth of the stripe.

In this embodiment, the stripe information may further include a stripe depth, and the stripe depth may be used to represent a required depth of a stripe to be processed; the depth of cut refers to the depth of cut that the cutter of digit control machine tool got into the cylinder work piece, it decides the actual depth of treating the processing stripe, therefore, controlgear is after calling corresponding default macro-procedure according to the stripe type, can acquire the depth of cut of cutter, and calculate the depth difference of depth of cut and stripe depth, and can confirm whether the progress depth is less than or equal to the stripe depth according to the depth difference, can guarantee to treat the actual depth of processing stripe and satisfy the demand degree of depth requirement, lead to treating the processing failure of processing stripe when having avoided treating the actual depth of processing stripe to exceed the demand degree of depth of processing stripe, the processing success rate of treating the processing stripe has been improved.

When the depth difference is smaller than or equal to zero, determining that the depth of cut is smaller than or equal to the depth of the stripe; and when the depth difference is larger than zero, determining that the depth of cut is larger than the depth of the stripe.

Step S340: and when the depth of cut is determined to be less than or equal to the depth of the stripe, determining whether the angle of cut of the numerical control machine tool is less than or equal to a preset angle.

In this embodiment, the preset angle is set by a user in advance according to the required fringe distribution of the fringes to be processed on the cylindrical workpiece; the strip type can be any one of diamond-shaped strips, straight strips, oblique strips and the like, the feed angle refers to an included angle between the advancing direction of the cutter and a rotating shaft of the numerical control machine tool in the working state of the numerical control machine tool, for example, the feed angle can be an included angle between the advancing direction of the cutter and an X axis of the numerical control machine tool, and the size of the feed angle determines the actual strip distribution of the strips to be processed on the cylindrical workpiece.

When the control equipment determines that the cutting depth is smaller than or equal to the strip depth, the cutting angle of the cutter can be obtained, the angle difference value between the cutting angle and the preset angle is calculated, whether the cutting angle of the numerical control machine tool is smaller than or equal to the preset angle can be determined according to the angle difference value, the fact that the actual strip distribution of the to-be-processed strips on the cylindrical workpiece meets the requirement of the strip distribution can be guaranteed, when the actual strip distribution of the to-be-processed strips does not meet the requirement of a user, processing failure of the to-be-processed strips is avoided, and the processing success rate of the to-be-processed strips is further improved.

When the angle difference is smaller than or equal to zero, determining that the feed angle of the numerical control machine tool is smaller than or equal to a preset angle; and when the angle difference is larger than zero, determining that the cutting feed angle of the numerical control machine tool is larger than a preset angle.

In one application scenario, the preset angle may be 360 °. When the angle difference is smaller than or equal to zero, determining that the feed angle of the numerical control machine tool is smaller than or equal to 360 degrees, and indicating that the to-be-processed stripes do not have repeated stripes in the circumferential direction of the cylindrical workpiece; and when the angle difference is larger than zero, determining that the feed angle of the numerical control machine tool is larger than 360 degrees, and indicating that the to-be-processed stripes have repeated lines in the circumferential direction of the cylindrical workpiece.

Step S350: and when the cutting feed angle is determined to be smaller than or equal to the preset angle, loading the stripe width and the cutting feed angle to a preset macro program.

In this embodiment, when determining that the cutting feed angle is smaller than or equal to the preset angle, the control device may load the stripe width and the cutting feed angle to a preset macro program, where the preset macro program receives and responds to the stripe width and the cutting feed angle, and may calculate the target processing angle corresponding to the stripe type according to the stripe width and the cutting feed angle.

Specifically, when determining that the feed angle is smaller than or equal to the preset angle, the control device may load the stripe width and the feed angle to a preset macro program, where the preset macro program may receive and respond to the stripe width and the feed angle, may calculate the machining angle corresponding to the stripe type according to the stripe width, and may calculate the target machining angle corresponding to the stripe type according to the formula three according to the machining angle and the feed angle.

The formula III is as follows: and #25 '# 25+ #16, wherein # 25' is the target processing angle corresponding to the stripe type, and #25 is the stripe feed angle.

Step S360: and receiving a target machining angle output by a preset macro program.

Step S370: and controlling the numerical control machine tool to work based on the target machining angle.

In this embodiment, step S360 and step S370 may refer to the content of the corresponding steps in the foregoing embodiments, and are not described herein again.

In the scheme provided by this embodiment, by obtaining the stripe information of the stripe to be processed, calling the corresponding preset macro program according to the stripe type, and determining whether the depth of cut of the numerical control machine tool is less than or equal to the stripe depth, when determining that the depth of cut is less than or equal to the stripe depth, determining whether the angle of cut of the numerical control machine tool is less than or equal to the preset angle, and when determining that the angle of cut is less than or equal to the preset angle, loading the stripe width and the angle of cut into the preset macro program, so that the preset macro program calculates the target processing angle corresponding to the stripe type according to the stripe width and the angle of cut, receives the target processing angle output by the preset macro program, and controls the numerical control machine tool to operate based on the target processing angle, the actual depth of the processed stripe can be guaranteed to meet the requirement for the required depth, and the processing failure of the stripe to be processed caused when the actual depth of the stripe to be processed exceeds the required depth of the user is avoided, the processing success rate of the stripes to be processed is improved.

Furthermore, the actual stripe distribution of the stripes to be processed on the cylindrical workpiece is ensured to meet the requirement of the required stripe distribution, the processing failure of the stripes to be processed caused by the fact that the actual stripe distribution of the stripes to be processed does not meet the requirement of a user is avoided, and the processing success rate of the stripes to be processed is further improved.

In an application scenario, the stripe type may be a triangular stripe, and the triangular stripe may be obtained based on basic processing of a diamond stripe, for example, after a numerical control machine tool completes processing of the diamond stripe, the diagonal of the diamond stripe may be fed, and the triangular stripe may be obtained.

After finishing the processing of the rhombus veins, the control equipment can determine whether a first current feed depth of the numerical control machine tool is less than or equal to a first current fringe depth corresponding to the triangle veins, when determining that the first current feed depth is less than or equal to the first current fringe depth, can determine whether a first current tool coordinate of the numerical control machine tool is less than or equal to a first current tool withdrawal coordinate corresponding to the triangle veins, and when determining that the first current tool coordinate is less than or equal to the first current tool withdrawal coordinate, the control equipment loads a first current fringe width corresponding to the triangle veins and a first current tool coordinate to a first current macro program corresponding to the triangle veins, so that the first current macro program calculates a first current processing width corresponding to the triangle veins according to the first current fringe width and the first current tool coordinate, and receives a first current processing width output by the first current macro program, and controlling the numerical control machine tool to work based on the first current machining width, so that the triangular grain can be obtained.

Referring to fig. 5, a flowchart of a stripe processing method according to another embodiment of the present application is shown. In a specific embodiment, the stripe processing method may be applied to the control device 100 in the stripe processing system shown in fig. 1, and the flow shown in fig. 5 will be described in detail below by taking the control device 100 as an example, and the stripe processing method may include the following steps S410 to S470.

Step S410: and acquiring stripe information of the stripes to be processed.

Step S420: and calling a corresponding preset macro program according to the stripe type.

Step S430: and determining whether the feed depth of the numerical control machine tool is less than or equal to the depth of the stripe.

In this embodiment, step S410, step S420 and step S430 may refer to the content of the corresponding steps in the foregoing embodiments, and are not described herein again.

Step S440: and when the cutting depth is determined to be less than or equal to the stripe depth, determining whether the tool coordinate of the numerical control machine tool is less than or equal to the tool retracting coordinate.

In this embodiment, the type of the stripe is a ring stripe, the tool coordinate may be used to indicate a position of a tool of the numerical control machine in a coordinate system corresponding to the numerical control machine, and the tool retracting coordinate may be used to represent a required tool position corresponding to the stripe to be processed. When the control equipment determines that the depth of feed is less than or equal to the depth of the stripes, whether the coordinates of the tool of the numerical control machine tool are less than or equal to the tool withdrawal coordinates can be determined, the position of the tool can be ensured to meet the requirement on the position of the tool, the condition that the position of the tool is incorrect when the position of the tool does not meet the requirement on the position of the tool is avoided, the condition that the stripes to be processed are located at the correct position is ensured, and the accuracy of the stripes to be processed is improved.

Step S450: and when the tool coordinate is determined to be smaller than or equal to the tool retracting coordinate, loading the stripe width and the tool coordinate to a preset macro program.

In this embodiment, when determining that the tool coordinate is less than or equal to the tool retracting coordinate, the control device may load the stripe width and the tool coordinate into the preset macro program, where the preset macro program receives and responds to the stripe width and the tool coordinate, and may calculate the target machining width corresponding to the stripe type according to the stripe width and the tool coordinate.

Specifically, when the control device determines that the tool coordinate is less than or equal to the tool retracting coordinate, the control device may load the stripe width and the tool coordinate into a preset macro program, and the preset macro program receives and responds to the stripe width and the tool coordinate, and may calculate the target machining width corresponding to the stripe type according to the formula four according to the abscissa of the tool coordinate and the stripe width.

The formula four is as follows: and #26 is a target processing width corresponding to the stripe type, and #27 is an abscissa of a tool coordinate.

In the present embodiment, during the machining process of the stripe machining, the tool moving direction moves along the negative half axis direction of the X axis.

Step S460: and receiving the target processing width output by the preset macro program.

Step S470: and controlling the numerical control machine tool to work based on the target machining width.

In this embodiment, step S460 and step S470 may refer to the content of the corresponding steps in the foregoing embodiments, and are not described herein again.

In the scheme provided by this embodiment, by obtaining the stripe information of the stripe to be processed, calling the corresponding preset macro program according to the stripe type, and determining whether the cutting depth of the numerical control machine tool is less than or equal to the stripe depth, when determining that the cutting depth is less than or equal to the stripe depth, determining whether the tool coordinate of the numerical control machine tool is less than or equal to the tool retracting coordinate, and when determining that the tool coordinate is less than or equal to the tool retracting coordinate, loading the stripe width and the tool coordinate to the preset macro program, so that the preset macro program calculates the target processing width corresponding to the stripe type according to the stripe width and the tool coordinate, receives the target processing width output by the preset macro program, and controls the numerical control machine tool to operate based on the target processing width, the tool position can be guaranteed to meet the requirement for the required tool position, and the problem that the position of the tool to be processed is incorrect when the tool position does not meet the requirement for the required tool position is avoided, the accurate position of the to-be-processed stripe is ensured, and the accuracy of the to-be-processed stripe is improved.

In an application scenario, the stripe type may also be a rectangular stripe, and the rectangular stripe may be formed by combining a straight stripe and an annular stripe, so that the rectangular stripe may be obtained by processing the annular stripe to the straight stripe on the basis of the straight stripe.

After the control equipment finishes processing the straight stripes, the control equipment can determine whether a second current feed depth of the numerical control machine tool is less than or equal to a second current stripe depth corresponding to the current annular stripes or not, when the second current feed depth is determined to be less than or equal to the second current stripe depth, the control equipment can determine whether a second current tool coordinate of the numerical control machine tool is less than or equal to a second current tool retracting coordinate corresponding to the current annular stripes or not, and when the second current tool coordinate is determined to be less than or equal to the second current tool retracting coordinate, the control equipment loads the second current stripe width corresponding to the current annular stripes and the second current tool coordinate to a second current macro program corresponding to the current annular stripes so that the second current macro program calculates a second current processing width corresponding to the current annular stripes according to the current second current stripe width and the second current tool coordinate and receives the second current processing width output by the second current macro program, and controlling the numerical control machine tool to work based on the second current machining width, so that the rectangular grains can be obtained.

Referring to fig. 6, which illustrates a stripe processing apparatus 500 according to an embodiment of the present application, the stripe processing apparatus 500 may be applied to the control device 100 in the stripe processing system shown in fig. 1, and the stripe processing apparatus 500 shown in fig. 6 will be described in detail below by taking the control device 100 as an example, and the stripe processing apparatus 500 may include an obtaining module 510, a loading module 520, and a control module 530.

The obtaining module 510 may be configured to obtain stripe information of a stripe to be processed; the loading module 520 may be configured to load the stripe information into a corresponding preset macro program to obtain a processing parameter corresponding to the stripe information; the control module 530 may be used to control operation of the numerically controlled machine tool based on the machining parameters.

In some embodiments, the stripe information may include a stripe type and a stripe width, and the loading module 520 may include a calling submodule, a loading submodule, and a receiving submodule.

The calling submodule can be used for calling a corresponding preset macro program according to the stripe type; the loading submodule can be used for loading the stripe width to a preset macro program, so that the preset macro program determines a processing parameter corresponding to the stripe type according to the stripe width; the receiving submodule can be used for receiving the processing parameters output by the preset macro program.

In some embodiments, the striation processing apparatus 500 may further include a first determination module.

The first determining module may be configured to determine whether the stripe type is the preset stripe type before the calling sub-module calls the corresponding preset macro program according to the stripe type.

In some embodiments, the calling submodule may include a calling unit.

The calling unit may be configured to call a corresponding preset macro program according to the stripe type when the stripe type is determined to be the preset stripe type.

In some embodiments, the streak information further includes a streak depth, and the streak processing apparatus 500 may further include a second determining module.

The second determination module may be configured to determine whether the depth of cut of the numerical control machine tool is less than or equal to the depth of the streak before the loading sub-module loads the width of the streak into the preset macro program.

In some embodiments, the load submodule may include a load unit.

The loading unit may be configured to load the streak width to a preset macroprogram when it is determined that the depth of cut is less than or equal to the streak depth.

In some embodiments, the stripe type is any one of a diamond stripe, a straight stripe, or a diagonal stripe, and the stripe processing apparatus 500 may further include a third determination module.

The third determining module may be configured to determine whether the cutting angle of the numerical control machine tool is less than or equal to a preset angle before the loading unit loads the fringe width to the preset macroprogram.

In some embodiments, a load unit may include a first load subunit.

The first loading subunit may be configured to load the fringe width to a preset macro program when it is determined that the feed angle is less than or equal to the preset angle.

In some embodiments, the processing parameter may include a target processing angle, and the first loading subunit may include a first loading sub-unit.

The first loading sub-unit may be configured to load the stripe width and the cutting feed angle to a preset macro program when it is determined that the cutting feed angle is smaller than or equal to the preset angle, so that the preset macro program calculates a target processing angle corresponding to the stripe type according to the stripe width and the cutting feed angle.

In some embodiments, the receiving sub-module may include a first receiving unit.

The first receiving unit may be configured to receive a target machining angle output by a preset macro program.

In some embodiments, the control module may include a first control sub-module.

The first control submodule can be used for controlling the numerical control machine tool to work based on the target machining angle.

In some embodiments, the stripe information further includes a tool retracting coordinate, the stripe type is a ring stripe, and the stripe processing apparatus 500 may further include a fourth determining module.

The fourth determining module may be configured to determine whether the tool coordinate of the numerical control machine is less than or equal to the tool retracting coordinate before the loading unit loads the strip width to the preset macroprogram.

In some embodiments, the load unit may include a second load subunit.

The second loading subunit may be configured to load the fringe width to the preset macro procedure when it is determined that the tool coordinate is less than or equal to the tool retracting coordinate.

In some embodiments, the processing parameter may further include a target processing width, and the second loading subunit may further include a second loading subunit.

The second loading subunit may be configured to load the stripe width and the tool coordinate to the preset macro program when the tool coordinate is less than or equal to the tool retracting coordinate, so that the preset macro program calculates a target processing width corresponding to the stripe type according to the stripe width and the tool coordinate.

In some embodiments, the receiving submodule may further include a second receiving unit.

The second receiving unit may be configured to receive a target processing width output by the preset macro program.

In some embodiments, the control module may further include a second control sub-module.

The second control submodule can be used for controlling the numerically-controlled machine tool to work based on the target machining width.

The utility model provides a scheme is through acquireing the stripe information of waiting to process the stripe to loading the stripe information to the macrosequent of presetting that corresponds, obtain the processing parameter that waits to process the stripe and correspond, and based on processing parameter control digit control machine tool work, realized according to the stripe information of waiting to process the stripe, automatic control digit control machine tool processing waits to process the stripe, need not the programming personnel and hand-made the numerical control program, has promoted the machining efficiency of waiting to process the stripe.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other. For the device-like embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment. For any processing manner described in the method embodiment, all the processing manners may be implemented by corresponding processing modules in the apparatus embodiment, and details in the apparatus embodiment are not described again.

In addition, functional modules in the embodiments of the present application may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode.

Referring to fig. 7, which shows a functional block diagram of an electronic device 600 according to another embodiment of the present application, the electronic device 600 may include one or more of the following components: memory 610, processor 620, and one or more applications, wherein the one or more applications may be stored in memory 610 and configured to be executed by the one or more processors 620, the one or more applications configured to perform a method as described in the aforementioned method embodiments.

The Memory 610 may include a Random Access Memory (RAM) or a Read-Only Memory (Read-Only Memory). The memory 610 may be used to store instructions, programs, code, sets of codes, or sets of instructions. The memory 610 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for implementing at least one function (such as obtaining stripe information, loading stripe information into a preset macro program, controlling operation of a numerical control machine, calling the preset macro program, determining a processing parameter, receiving a processing parameter, determining a stripe type, determining a depth size, loading a stripe width into the preset macro program, determining an angle size, calculating a target processing angle, receiving the target processing angle, determining a coordinate size, calculating a target processing width, receiving the target processing width, and the like), instructions for implementing various method embodiments described below, and the like. The data storage area may also store data created by the electronic device 600 during use (such as stripe information, preset macros, machining parameters, stripe type, stripe width, preset stripe type, stripe depth, feed depth, diamond pattern, straight stripe, diagonal stripe, feed angle, preset angle, target machining angle, tool retract coordinate, ring line, tool coordinate, and target machining width), and so forth.

Processor 620 may include one or more processing cores. The processor 620 interfaces with various components throughout the electronic device 600 using various interfaces and circuitry to perform various functions of the electronic device 600 and process data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 610 and invoking data stored in the memory 610. Alternatively, the processor 620 may be implemented in hardware using at least one of Digital Signal Processing (DSP), Field-Programmable Gate Array (FPGA), and Programmable Logic Array (PLA). The processor 620 may integrate one or more of a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), a modem, and the like. Wherein, the CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing display content; the modem is used to handle wireless communications. It is understood that the modem may not be integrated into the processor 620, but may be implemented by a communication chip.

Referring to fig. 8, a block diagram of a computer-readable storage medium according to an embodiment of the present application is shown. The computer readable storage medium 700 has stored therein a program code 710, the program code 710 being capable of being invoked by a processor to perform the methods described in the method embodiments above.

The computer-readable storage medium 700 may be an electronic memory such as a flash memory, an EEPROM (electrically erasable programmable read only memory), an EPROM, a hard disk, or a ROM. Optionally, the computer-readable storage medium 700 includes a non-volatile computer-readable storage medium. The computer readable storage medium 700 has storage space for program code 710 for performing any of the method steps of the method described above. The program code can be read from or written to one or more computer program products. The program code 710 may be compressed, for example, in a suitable form.

The scheme that this application provided is through acquireing the stripe information of waiting to process the stripe to loading the stripe information to the macroscope of corresponding predetermineeing, obtain the machining parameter that waits to process the stripe and correspond, and based on machining parameter control digit control machine tool work, realized according to the stripe information of waiting to process the stripe, the stripe is waited to process in automatic control digit control machine tool processing, need not the programming personnel and has worked out the numerical control procedure by hand, has promoted the machining efficiency of waiting to process the stripe.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (11)

1. A stripe processing method is characterized by comprising the following steps:

acquiring stripe information of a stripe to be processed;

loading the stripe information to a corresponding preset macro program to obtain a processing parameter corresponding to the stripe information;

and controlling the numerical control machine tool to work based on the machining parameters.

2. The stripe processing method according to claim 1, wherein the stripe information includes a stripe type and a stripe width, and the loading the stripe information to a corresponding preset macro program to obtain the processing parameters corresponding to the stripe information includes:

calling a corresponding preset macro program according to the stripe type;

loading the stripe width to the preset macro program, so that the preset macro program determines the processing parameters corresponding to the stripe type according to the stripe width;

and receiving the processing parameters output by the preset macro program.

3. The stripe processing method according to claim 2, wherein before said calling the corresponding preset macro program according to the stripe type, the stripe processing method further comprises:

determining whether the stripe type is a preset stripe type;

the calling of the corresponding preset macro program according to the stripe type comprises the following steps:

and when the stripe type is determined to be a preset stripe type, calling a corresponding preset macro program according to the stripe type.

4. The stripe processing method according to claim 2, wherein said stripe information further includes a stripe depth, and before said loading of said stripe width to said preset macro program, said stripe processing method further comprises:

determining whether the feed depth of the numerical control machine tool is less than or equal to the stripe depth;

the loading the stripe width to the preset macro program comprises:

and when the cutting depth is determined to be less than or equal to the stripe depth, loading the stripe width to the preset macro program.

5. The stripe processing method according to claim 4, wherein said stripe type is any one of a diamond stripe, a straight stripe or a diagonal stripe, and before said loading the stripe width into the preset macro program, said stripe processing method further comprises:

determining whether the feed angle of the numerical control machine tool is smaller than or equal to a preset angle;

the loading the stripe width to the preset macro program comprises:

and when the cutting feed angle is determined to be smaller than or equal to the preset angle, loading the stripe width to the preset macro program.

6. The striation process of claim 5, wherein the process parameters include a target process angle, and wherein loading the striation width into the pre-set macro-program upon determining that the feed angle is less than or equal to the pre-set angle comprises:

when the fact that the cutting feed angle is smaller than or equal to the preset angle is determined, loading the stripe width and the cutting feed angle to the preset macro program, and enabling the preset macro program to calculate a target machining angle corresponding to the stripe type according to the stripe width and the cutting feed angle;

the receiving of the processing parameters output by the preset macro program includes:

receiving the target machining angle output by the preset macro program;

based on machining parameter control digit control machine tool work includes:

and controlling the numerical control machine tool to work based on the target machining angle.

7. The stripe processing method according to claim 4, wherein said stripe information further includes a backstepping coordinate, said stripe type is a ring stripe, and said stripe processing method further comprises, before said loading said stripe width to said preset macro program:

determining whether the tool coordinate of the numerical control machine tool is less than or equal to the tool retracting coordinate;

the loading the stripe width to the preset macro program includes:

and when the tool coordinate is determined to be less than or equal to the tool retracting coordinate, loading the stripe width to the preset macro program.

8. The striation process of claim 7, wherein the process parameters include a target process width, and wherein loading the striation width into the pre-set macro-program upon determining that the tool coordinates are less than or equal to the retract coordinates comprises:

when the tool coordinate is smaller than or equal to the tool retracting coordinate, loading the stripe width and the tool coordinate to the preset macro program, so that the preset macro program calculates the target machining width corresponding to the stripe type according to the stripe width and the tool coordinate;

the receiving of the processing parameters output by the preset macro program includes:

receiving the target processing width output by the preset macro program;

the control of the work of the numerical control machine tool based on the machining parameters comprises the following steps:

and controlling the numerical control machine tool to work based on the target machining width.

9. A streak machining apparatus, comprising:

the acquisition module is used for acquiring stripe information of the stripes to be processed;

the loading module is used for loading the stripe information to a corresponding preset macroprogram to obtain a processing parameter corresponding to the stripe information;

and the control module is used for controlling the numerical control machine tool to work based on the machining parameters.

10. An electronic device, comprising:

a memory;

one or more processors coupled with the memory;

one or more applications, wherein the one or more applications are stored in the memory and configured to be executed by one or more processors, the one or more applications configured to perform the striping method of any one of claims 1 to 8.

11. A computer-readable storage medium having program code stored therein, the program code being invoked by a processor to perform the stripe processing method according to any one of claims 1 to 8.

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