CN212421641U - Woodworking machine processing system - Google Patents
Woodworking machine processing system Download PDFInfo
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- CN212421641U CN212421641U CN202020783505.0U CN202020783505U CN212421641U CN 212421641 U CN212421641 U CN 212421641U CN 202020783505 U CN202020783505 U CN 202020783505U CN 212421641 U CN212421641 U CN 212421641U
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Abstract
The utility model discloses a woodworking machine processing system, which is used for a machine at least comprising two woodworking processing procedures of cutting and drilling, and comprises an input module, a control device and a driving device, wherein the control device comprises a reading module, a typesetting module, a central control module, a cutting module, a drilling module and a processing module; a user imports a drawing file through an input module, sets cutter parameters and process parameters, a typesetting planning of merging a plurality of parts into a processing object is carried out through a typesetting module, then a main processing file is generated through a central control module, then a secondary processing file is generated through a cutting module, a drilling module and the like, and a processing instruction is generated by the processing module according to the processing file and is sent to a driving device to drive an axial motor to execute processing. Compared with the prior art, the utility model discloses a plurality of submodule pieces such as will open material, drilling are integrated on a controlling means on same board, realize multiple carpenter's manufacturing procedure, reach save space, save the board cost, use manpower sparingly, improve machining efficiency's beneficial effect.
Description
Technical Field
The utility model belongs to the technical field of the carpenter's board and specifically relates to a carpenter's board system of processing that just can realize multiple manufacturing procedure at same board.
Background
The plate-type furniture is made up by using artificial plane plate material as basic structure, sticking original wood veneer or artificial veneer on the surface of artificial plane plate material, then making them pass through various machines to make processing, finally utilizing screws or nails to assemble all the plate materials. Compared with solid wood furniture, the wood furniture has the advantages of being not easy to damp, not easy to deform or crack due to environmental influence, convenient to disassemble, low in price and the like.
The method is generally applied to the processing of the plate-type furniture, such as the processes of drilling, labeling and cutting, wherein each control device is arranged on different machines, and then manual carrying or assembly line processing is carried out on the machines to different stations. For example, in a typical conventional plate-type furniture processing flow, a labeler is used to label a large plate, a cutting device is used to cut the large plate into a plurality of small plates, the small plates are manually or transported to an edge bonding machine, four side surfaces of the small plates are coated (usually, the upper and lower surfaces of the large plate are coated originally), and finally the small plates are manually or transported to a drilling machine to process holes, grooves and milling shapes of the small plates.
Labeling, cutting and drilling of existing woodworking machine processing need one control device respectively, so that cost is high, and communication problems of the three control devices need to be considered when a production line is integrated. And the small plates need to be manually carried or an automatic production line is designed from the completion of cutting to the edge bonding machine and the completion of edge bonding to the drilling machine, if the automatic production line is adopted, the cost is extremely high, and if the automatic production line is not adopted, each station possibly needs one operator, so that the labor cost and the time cost are not low.
In addition, the existing production line (including an automatic production line) for processing the woodworking machine tables occupies a large area, and a lot of small furniture factories hardly have space for placing three machine tables.
SUMMERY OF THE UTILITY MODEL
Then, for solving the communication problem of integrating many controlling means when producing the line among the prior art, the problem of multi-machine area, and automatic cost, human cost, time cost are too high scheduling problem, the utility model aims at integrating functions such as drilling, subsides mark, cutting, banding, just can realize multiple processing at same board, reach controlling means and the communication cost that reduces many processing boards, save space, save the board cost, save the human cost, improve machining efficiency.
In order to achieve the above object, the utility model discloses a carpenter board system of processing for at least including cutting material and the board of the more than two kinds of carpenter manufacturing procedure of drilling, it includes: the input module is used for inputting a drawing file, cutter parameters and process parameters of a part required by the processing of a processing object in the processing system; a control device including a reading module for receiving the drawing file, the tool parameter and the process parameter input by the input module; a typesetting module, which obtains the drawing file and the cutter parameters through the reading module, is used for planning the configuration layout of the needed parts combined to the processing object and generating the typesetting plan; the cutting module obtains the cutter parameters and the typesetting plan through the reading module and is used for generating a cutting processing file for cutting a processing object into required parts; the drilling module obtains the cutter parameters and the process parameters through the reading module, and the typesetting plan to generate a drilling processing file; the central control module is respectively in communication connection with the cutting module and the drilling module, acquires the typesetting plan through the typesetting module, and generates a first processing file integrating cutting and drilling processing flow plans according to the typesetting plan, the cutting processing file, the drilling processing file and machine type parameters of a woodworking machine; a processing module for generating a first processing instruction according to the first processing file; and the driving device receives the first processing instruction of the control device to drive a motor of the woodworking machine, and the motor is coupled to related components required for executing the woodworking processing procedures.
Furthermore, the woodworking machine processing system is used for a machine which also comprises a labeling processing procedure, the control device also comprises a labeling module, the labeling module is in communication connection with the central control module, the labeling module generates a labeling processing file according to the figure file and label parameters input by the input module, the central control module generates a second processing file integrating the layout planning, the cutting processing file, the drilling processing file, the labeling processing file and the machine type parameters, and the processing module generates a second processing instruction according to the second processing file; the driving device receives the second processing instruction of the control device to drive a motor of the woodworking machine, and the motor is coupled to related components required for executing the woodworking processing procedures.
Further, the woodworking machine processing system is used for a machine which further comprises an edge sealing processing procedure, the control device further comprises an edge sealing module, the edge sealing module is in communication connection with the central control module, the edge sealing module generates an edge sealing processing file according to the figure file and edge sealing parameters input by the input module, the central control module generates a third processing file integrating the layout planning, the material cutting processing file, the drilling processing file, the edge sealing processing file and machine type parameters, and the processing module generates a third processing instruction according to the third processing file; the driving device receives the third processing instruction of the control device to drive a motor of the woodworking machine, and the motor is coupled to related components required for executing the woodworking processing procedures.
Furthermore, the woodworking machine table processing system is used for a machine table which also comprises labeling and edge sealing processing procedures, the control device also comprises a labeling module and an edge sealing module, the labeling module and the edge sealing module are respectively in communication connection with the central control module, the labeling module generates a labeling processing file according to the figure file and the label parameters input by the input module, and the edge sealing module generates an edge sealing processing file according to the figure file and the edge sealing parameters input by the input module; the central control module generates a fourth processing file integrating the planning of the cutting, drilling, labeling and edge sealing processing flows according to the typesetting planning, the cutting processing file, the drilling processing file, the labeling processing file, the edge sealing processing file and the machine type parameters, and the processing module generates a fourth processing instruction according to the fourth processing file; the driving device receives the fourth processing instruction of the control device to drive a motor of the woodworking machine, and the motor is coupled to related components required for executing the woodworking processing procedures.
Through the utility model discloses carpenter board system of processing, to read the module, the typesetting module, well accuse module, processing module and division material, drilling, submodule piece integration such as banding is on same platform controlling means, the user is leading-in through input module or establish the drawing file by oneself and set up cutter parameter and technological parameter, put the processing object (big board) on the board, and press the processing key, controlling means can read user's input, and the handing over carries out the planning that a plurality of parts (platelet) merge the processing object (big board) by the typesetting module, generate main processing file by well accuse module after that, and division material and drilling module generate vice processing file, rethread processing module turns into processing instruction with the processing file and lets the driver can drive each axial motor and carry out the processing action. The end user can obtain all the finished platelets. Compare in traditional system of processing, the utility model discloses to open carpenter's processing submodule pieces such as material, drilling, banding and integrate on a controlling means, can operate by an operative employee, time, process time, the control system cost, the human cost of unloading on reducing each station. The machine can realize multiple processing, thereby having the benefits of saving space, saving machine cost, saving labor and improving processing efficiency.
Drawings
Fig. 1 is a schematic block diagram of a woodworking processing system with drilling and cutting processes according to an embodiment of the present invention.
Fig. 2 is a schematic diagram of a block structure of a woodworking processing system with labeling, drilling and cutting processes according to an embodiment of the present invention.
Fig. 3 is a schematic diagram of a block structure of a woodworking processing system with drilling, cutting and edge sealing processes according to an embodiment of the present invention.
Fig. 4 is a schematic diagram of a block structure of a woodworking processing system with processes of labeling, drilling, cutting and edge sealing according to an embodiment of the present invention.
Fig. 5 is a schematic diagram of a machine table for combining drilling and cutting according to the present invention.
Fig. 6 is a schematic diagram of a machine table for combining labeling, six-sided drilling and cutting according to the present invention.
Fig. 7 is a schematic diagram of a machine table of a woodworking and communication system for combining labeling, a five-sided drill and cutting with a gang drill according to the present invention.
Fig. 8 is a schematic diagram of a machine table of a woodworking and communications system for combining a label, a hexahedral drill and an electronic cutting saw according to the present invention.
In the drawings:
100: an input module;
200: control device;
first processing file 201: first processing file;
202: a first processing instruction;
203: second processing file;
204: a second processing instruction;
205: third processing file;
206: third processing instruction;
207: fourth process file;
208: fourth processing instruction;
reading module (210): reading module;
220: typesetting module;
230: a central control module;
240: a material cutting module;
drilling module 250: drilling module;
260: labeling module;
270: edge sealing module;
280: processing module;
300: a drive device;
400. 500, 600, 700: machine;
410. 510, 610, 710: clamping jaw;
420. 530, 630, 730: drilling device;
430. 540, 640, 740: a material cutting device;
401. 501, 601, 701: board;
520. 620, 720: labeling device;
641: gang drill device.
Detailed Description
In order to make the technical field of the present invention better understand, the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained under the premise of equivalent changes and modifications by those skilled in the art should belong to the protection scope of the present invention.
Example one
Referring to fig. 1, fig. 1 is a block diagram of a woodworking processing system with drilling and cutting processes according to an embodiment of the present invention. The present embodiment discloses a woodworking machine processing system for a machine at least including two or more woodworking processes, the system at least includes: an input module 100, a control device 200 and a driving device 300. The control device 200 is provided therein with a reading module 210, a layout module 220, a central control module 230, a cutting module 240 and a drilling module 250.
This input module 100 is used for inputting the processing object at drawing shelves, cutter parameter and the technological parameter of the required part of processing system processing, the embodiment of the utility model provides a processing object indicate the big board that is used for carpenter's board processing, the part indicates the platelet after big board prediction will cut. The input module 100 is a user operation interface, which includes an operation screen disposed on the machine and/or a computer device (such as a desktop computer or a notebook computer, etc. connected to the control device 200 in a wired or wireless network connection manner) externally connected to the machine, so that a user can input a drawing file, a tool parameter, and a process parameter. The drawing file refers to all graphic data files that can describe the plate to be processed, whether the drawing file is a drawing file or a file with specification (such as an AutoCAD DXF file), and can be drawn on a user operation interface. The user operation interface provides cutter parameters and process parameters, the cutter parameters are cutter related parameters of all machining procedures of the machine, and the cutter related parameters comprise cutter types, cutter positions, cutter speeds and cutter diameters; the process parameters include processing modes, action path planning and the like of different processing technologies. The user operation interface can also be used to control the execution, pause and stop of the woodworking machine.
The reading module 210 is connected to the input module 100, and the reading module 210 in the control device 200 receives the data of the drawing file, the tool parameters, the process parameters, and the like of the input module 100 and analyzes the contents of the drawing file.
The layout module 220 is connected to the reading module 210, and the reading module 210 obtains the drawing files and the tool parameters for planning the layout of the parts to be combined with the object to be processed to generate a layout plan; typesetting (also known as close packing) is an act of putting as many small irregular geometric figures as possible onto a large irregular geometric figure, the tightest configuration being obtained by calculation. After the size of the object (large plate) to be processed is known, an attempt is made to integrate the individual parts (small plates) into one object (large plate) to be processed. The layout module 220 receives the drawing information of all the parts, and referring to the aforementioned tool parameters and process parameters, arranges the configuration that is the most compact and enables the following processing to be the fastest. After the typesetting is finished, the process of the small plate is combined on the processing object (large plate), and the subsequent processing is regarded as processing a single object (plate). The process parameters mainly include the carpentry procedure modes of drilling, slotting and milling, and further the typesetting module 220 obtains the process parameters from the reading module 210 at the same time to optimize the typesetting planning.
The central control module 230 is responsible for planning the overall processing flow, generating a processing file to the processing module 280, determining the starting sequence of different modules according to the model parameter settings of different machines, firstly generating a loading program instruction, including pushing a processing object to a processing platform, pushing the processing object to a positioning column to ensure alignment, then calling each sub-module in sequence, wherein the sub-module at least comprises a drilling module, a cutting module, a labeling module, a sealing module and the like, planning a corresponding processing program, generating a sub-processing file, generating a sub-program, and finally outputting a blanking program, and pushing the processed plate to a processing area. The machine type parameters are mechanism-related parameters of the machine platform.
In this embodiment, the cutting module 240 and the drilling module 250 are respectively connected to the central control module 230 in a communication manner. The cutting module 240 obtains the tool parameters and the layout plan from the reading module 210 to generate a cutting file for cutting the object to be processed into the required parts; in practice, the cutting module 240 can obtain the tool parameters and the layout plan through the central control module 230. Specifically, the sub-modules of drilling, labeling, edge sealing, etc. described in the following embodiments may also obtain the data of the reading module 210 and the typesetting module 220 through the central control module 230. Further, the cutting module 240 obtains the process parameters from the reading module 210 at the same time to optimize the cutting process file. The cutting module 240 plans the cutting operation to generate a cut sub-machining file. And planning an optimal path (such as the shortest processing path or the shortest processing time) for dividing the processing object into a plurality of parts according to the result data of the typesetting planning, the cutter parameters and the related cutting process parameters. The cutting device can be switched into different types of cutting devices through parameter setting, the cutting devices comprise single main shafts, multiple main shafts and electronic cutting saws, different types of machining actions can be planned, and corresponding machining files can be generated.
The drilling module 250 obtains the tool parameters and the process parameters and the layout plan from the reading module 210 to generate a drilling file. The drilling module 250 plans the processing modes of the processes such as drilling, slotting, milling and the like, and generates a secondary processing file of drilling. And planning the processing sequence and the optimal path action of plate drilling, groove drawing and milling according to the result data of the typesetting planning, the cutter parameters and the drilling related process parameters. The drilling machine modules of different types can be switched through parameter setting, the drilling machine modules comprise drilling packages positioned above or below, a single drilling package or a plurality of drilling packages, the action of each drilling package is planned, and corresponding processing files are generated.
In the embodiment shown in fig. 1, the central control module 230 is configured to generate a first processing file 201 integrating the layout planning and the drilling process planning according to the layout planning, the cutting processing file, the drilling processing file, and the model parameters of the woodworking machine; the processing module 280 generates a first processing instruction 202 according to the content of the first processing file 201; finally, the driving device 300 receives the first processing instruction 202 of the control device 200 to drive the motor of the woodworking machine, so that the driving device 300 drives each axial motor. The motor is coupled to related components required for executing the woodworking procedures, and the coupled related components comprise a clamping jaw for moving a processing object and a part and a tool magazine for processing a tool.
Example two
Referring to fig. 2, fig. 2 is a schematic block diagram of a woodworking processing system with processes of labeling, drilling and cutting according to an embodiment of the present invention. Further, on the basis of the system of the first embodiment shown in fig. 1, the woodworking machine processing system of the second embodiment further includes a labeling process, the control device 200 further includes a labeling module 260, the labeling module 260 is in communication connection with the central control module 230, and the labeling module 260 generates a labeling process file according to the aforementioned drawing file and the label parameters inputted by the input module 100. The label parameters comprise user-defined label size, labeling angle and character data, and the labeling processing file comprises an optimal path of a labeling processing procedure during labeling and label data to be attached to each part (small plate). The labeling module 260 plans the labeling operation to generate a labeling auxiliary processing file. According to the result data of each processing, typesetting and planning and the labeling related parameters, the process information of each part (small plate) is generated into a one-dimensional or two-dimensional bar code and character information, and then the following instructions are generated, including the steps of transmitting data to a labeling machine to print a label, transmitting the label to a designated position and executing the labeling process.
As shown in fig. 2, the central control module 230 generates a second processing file 203 integrating the layout planning, the cutting processing file, the drilling processing file, the labeling processing file and the model parameters according to the layout planning, the cutting processing file, the drilling processing file, the labeling processing file and the model parameters, and the processing module 280 generates a second processing instruction 204 according to the second processing file 203; the driving device 300 receives the second processing instruction 204 of the control device 200 to drive the motors of the woodworking machine, and the motors are coupled to the related components required for executing the woodworking processes.
EXAMPLE III
Referring to fig. 3, fig. 3 is a schematic block diagram of a woodworking processing system with drilling, cutting and edge sealing processes according to an embodiment of the present invention. Further, on the basis of the system of the first embodiment shown in fig. 1, the woodworking machine processing system of the third embodiment further includes an edge sealing process, the control device 200 further includes an edge sealing module 270, the edge sealing module 270 is in communication connection with the central control module 230, and the edge sealing module 270 generates an edge sealing processing file according to the aforementioned drawing file and the edge sealing parameters input by the input module 100. The edge sealing parameters comprise a user-defined edge sealing process, and the edge sealing processing file comprises an optimal path of an edge sealing processing procedure in the edge sealing procedure. The edge sealing module 270 plans an edge sealing operation to generate an edge sealing sub-processing file. And performing actions such as pre-milling, gluing, skinning, trimming and the like on the periphery of each cut part (small plate) according to the drawing (such as CAD (computer aided design) file) of each part (small plate) and relevant edge sealing process parameters.
As shown in fig. 3, the central control module 230 generates a third processing file 205 integrating the planning of the cutting, drilling and edge sealing processing flow according to the layout planning, the cutting processing file, the drilling processing file, the edge sealing processing file and the model parameters, and the processing module 280 generates a third processing instruction 206 according to the third processing file 205; the driving device 300 receives the third processing instruction 206 from the control device to drive the motors of the woodworking machine, and the motors are coupled to the relevant components required for executing the woodworking processes.
Example four
Referring to fig. 4, fig. 4 is a schematic block diagram of a woodworking processing system with processes of labeling, drilling, cutting and edge sealing according to an embodiment of the present invention. Further, on the basis of the system of the first embodiment shown in fig. 1, the woodworking machine processing system of the fourth embodiment further includes a labeling and edge sealing process, the control device 200 includes the labeling module 260 and the edge sealing module 270, the labeling module 260 and the edge sealing module 270 are respectively in communication connection with the central control module 230, the labeling module 260 generates a labeling processing file according to the aforementioned figure file and the label parameters input by the input module 100, and the edge sealing module 270 generates an edge sealing processing file according to the aforementioned figure file and the edge sealing parameters input by the input module 100; the central control module 230 generates a fourth processing file 207 integrating the planning of the cutting, drilling, labeling and edge sealing processing flows according to the typesetting planning, the cutting processing file, the drilling processing file, the labeling processing file, the edge sealing processing file and the model parameters, and the processing module 280 generates a fourth processing instruction 208 according to the fourth processing file 207; the driving device 300 receives the fourth processing instruction 208 of the control device 200 to drive the motors of the woodworking machine, and the motors are coupled to the related components required for executing the woodworking processes.
The actual operation flow of the woodworking machine processing system provided by the utility model is that after a user imports or automatically establishes a drawing file (such as a CAD file) and sets various parameters, the input module 100 reads information and parameter data of each part (small plate), and then performs close packing of the plate material through the layout module 220 to plan which parts (small plates) are on each processing object (large plate), and then combines the parts into the processing object including all processes, then, each module (cutting/drilling/labeling/sealing) performs detail planning to generate a secondary processing file, the central control module 230 connects the processing files of all the modules in series according to the model parameters and adds the action planning of loading and unloading to generate a main processing file, and finally the processing module generates a processing instruction according to the main processing file to the driving device 300 so as to drive the axial motor to perform processing.
The utility model discloses carpenter board system of processing only needs a controller alright carry out drilling, paste the mark, open material, technique such as banding, and uses this system, can reach elasticity production configuration, according to customer's production demand, adjusts the board configuration. The following are various application examples.
Fig. 5 is a schematic diagram of a machine table for combining drilling and cutting according to the present invention. The machine 400 includes drilling and cutting functions, and the user can choose to attach the label before loading or to attach the label after cutting. The machine 400 mainly includes a clamping jaw 410, a drilling device 420 and a cutting device 430, wherein the drilling device 420 includes a plurality of drilling tools (not shown) and a spindle, the drilling tools are responsible for drilling vertical holes or side holes, and the spindle is responsible for broaching or milling. The chuck 410 carries the object to be processed, i.e., the plate 401, to move in the X direction, and the drilling device 420 moves in the Y direction alone, and then moves to a predetermined position to perform re-processing. The processing flow is to know the processes of holes, grooves, milling shapes and the like of the plate 401 through code scanning, and the clamping jaw 410 and the drilling device 420 can be processed after reaching the designated position according to the sequencing result of the processes in sequence. The cutting device 430 divides the large panel into a plurality of small panels according to the layout plan. The cutting device 430 can finish cutting after processing according to a specified path by using a main shaft, and some cutting devices are provided with gang drills and can process front holes, front grooves and front milling types by the way. Another cutting device 430 is an electronic cutting saw, which cuts the plate with a saw blade, and cuts the plate with one end every time, and the processing speed is fast, and usually needs to cooperate with manual rotation to cut all small plates.
According to the utility model discloses carpenter processing board system's technique, the board operation flow of fig. 5 is: a user imports or establishes a CAD file in a user operation interface by himself and presses a processing key; the central control module 230 starts to generate a main processing file; the central control module 230 outputs a feeding instruction; the drilling module 250 outputs a secondary processing file for executing all drilling, groove drawing and milling processes; the cutting module 240 outputs a secondary processing file for executing cutting; finally, the control device 200 generates a processing command to the driving device 300 to drive the motor of the woodworking machine, so as to drive the clamping jaw 410, the drilling device 420 and the cutting device 430 on the machine 400 to perform a processing procedure.
Fig. 6 is a schematic diagram of a machine table for combining labeling, six-sided drilling and cutting according to the present invention. The machine 500 has the functions of labeling, drilling and cutting. The machine 500 mainly comprises a clamping jaw 510, a labeling device 520, a drilling device 530 and a cutting device 540, wherein the drilling device 530 is a six-sided drill which is packed by upper and lower drills, so that some upper and lower holes can be drilled simultaneously, upper and lower grooves can be pulled simultaneously, and the processing efficiency is high. The clamping jaw 510 carries the sheet material 501 to move along the X direction, and the cutting device 540 divides the large sheet material into a plurality of small sheets according to the typesetting plan. The labeling device 520 reads all information of the part (small plate), including process and plate information, prints all information on a label in a one-dimensional or two-dimensional code manner, and finally attaches the information on a corresponding position.
According to the utility model discloses carpenter's board system of processing's technique, the board operation flow of fig. 6 is: a user imports or establishes a CAD file in a user operation interface by himself and presses a processing key; the central control module 230 starts to generate a main processing file; the central control module 230 outputs a feeding instruction; the labeling module 260 outputs an execution labeling auxiliary processing file; the drilling module 250 outputs a sub-processing file for performing the drilling, grooving and milling processes; the cutting module 240 outputs a secondary processing file for executing cutting; finally, the control device 200 generates a processing command to the driving device 300 to drive the motor of the carpenter machine, so as to drive the clamping jaw 510, the labeling device 520, the drilling device 530 and the cutting device 540 on the machine 500 to perform the processing procedure.
Fig. 7 is a schematic diagram of a machine table of a woodworking and communication system for combining labeling, a five-sided drill and cutting with a gang drill according to the present invention. The machine 600 has the functions of labeling, drilling and cutting. The machine 600 mainly comprises a clamping jaw 610, a labeling device 620, a drilling device 630 and a cutting device 640, wherein the cutting device 640 comprises a gang drilling device 641, a front hole and a front groove are formed on the cutting device 640 with the gang drilling device 641, and a back hole and a back groove are formed on the drilling device 630. The clamping jaw 610 carries the plate 601 to move along the direction X, and the cutting device 640 divides the large plate into a plurality of small plates according to the typesetting plan.
According to the utility model discloses carpenter's board system of processing's technique, the board operation flow of fig. 7 is: a user imports or establishes a CAD file in a user operation interface by himself and presses a processing key; the central control module 230 starts to generate a main processing file; the central control module 230 outputs a feeding instruction; the labeling module 260 outputs an execution labeling auxiliary processing file; the drilling module 250 outputs auxiliary processing files of back drilling, groove drawing and milling; the cutting module 240 outputs auxiliary processing files of front drilling, groove drawing, milling and cutting; finally, the control device 200 generates a processing command to the driving device 300 to drive the motor of the woodworking machine, so as to drive the clamping jaw 610, the labeling device 620, the drilling device 630 and the cutting device 640 on the machine 600 to perform a processing procedure.
Fig. 8 is a schematic diagram of a machine table of a woodworking and communications system for combining a label, a hexahedral drill and an electronic cutting saw according to the present invention. The machine 700 has the functions of labeling, drilling and cutting. The machine 700 mainly includes a clamping jaw 710, a labeling device 720, a drilling device 730 and a cutting device 740. Because the drilling device 630 drills and packages up and down, some upper holes and lower holes can be drilled simultaneously, the upper grooves and the lower grooves can be pulled simultaneously, and the machining efficiency is high. In addition, because the cutting device 740 is used for cutting materials by a saw blade, the efficiency is much faster than that of a mode of cutting materials by a main shaft. The clamping jaws 710 carry the sheet 701 along the X direction, and the cutting device 740 divides the large sheet into a plurality of small sheets according to the layout plan.
According to the utility model discloses carpenter's board system of processing's technique, the board operation flow of fig. 8 is: a user imports or establishes a CAD file in a user operation interface by himself and presses a processing key; the central control module 230 starts to generate a main processing file; the central control module 230 outputs a feeding instruction; the labeling module 260 outputs an execution labeling auxiliary processing file; the drilling module 250 outputs a secondary processing file for executing the drilling, groove drawing and milling processes; the cutting module 240 outputs a secondary processing file (needing to be matched with manual plate turning) for cutting; finally, the control device 200 generates a processing command to the driving device 300 to drive the motor of the woodworking machine, so as to drive the clamping jaw 710, the labeling device 720, the drilling device 730 and the cutting device 740 on the machine 700 to perform a processing procedure.
To sum up, the utility model has the advantages of, use this carpenter board system of processing can integrate into a board with traditional a plurality of boards, only need a controller, a software operation interface, reduce the cost that furniture factory bought equipment by a wide margin. In addition, multiple board probably respectively has a user operation interface in the past, and the user must learn three kinds of interfaces, and the utility model discloses carpenter's board system of processing has integrated multiple functions in a user operation interface, and is not had the burden to user operation. In addition, in the prior art, the problem of communication among machines needs to be considered when multiple machines are connected in series, particularly, many communication problems are caused when each controller comes from different manufacturers.
The utility model discloses to paste mark, drilling, open multiple carpenter processing technology integration such as material and banding at same board, reduce the assembly line between each machine platform of tradition. The system can be applied to different integrated equipment through parameter adjustment, so that an equipment factory can flexibly adjust the configuration of the mechanism.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention; it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention.
Claims (10)
1. The utility model provides a carpenter's board system of processing for at least including opening the board of material and the more than two kinds of carpenter's processing procedure of drilling, its characterized in that, it includes:
the input module is used for inputting a drawing file, cutter parameters and process parameters of a part required by the processing of a processing object in the processing system;
a control device, comprising:
the reading module is connected with the input module and is used for receiving the drawing file, the cutter parameters and the process parameters input by the input module;
the typesetting module is connected with the reading module, obtains the drawing file and the cutter parameters through the reading module, is used for planning the configuration layout of the needed parts combined to the processing object and is used for generating a typesetting plan;
the cutting module obtains the cutter parameters and the typesetting plan through the reading module;
the drilling module obtains the cutter parameters and the process parameters and the typesetting plan through the reading module;
the central control module obtains the typesetting plan through the typesetting module, and is respectively in communication connection with the cutting module and the drilling module;
the processing module is connected with the central control module and is used for outputting a processing instruction;
and the driving device is connected with the processing module and receives the processing instruction of the control device to drive the motor of the woodworking machine, and the motor is coupled to related components required for executing the woodworking processing procedures.
2. The woodworking machine station processing system of claim 1, wherein the input module is a user interface, and the user interface comprises an operation screen disposed on the machine station and/or a computer device externally connected to the machine station.
3. The woodworking bench working system of claim 1, wherein the motor-coupled related components include jaws for moving work objects and parts, and a tool magazine for machining tools.
4. The woodworking bench working system of claim 1, wherein the drilling module comprises a drilling device including a drill and a spindle.
5. The woodworking bench working system of claim 4, wherein the drill is a five-sided drill or a six-sided drill.
6. The woodworking bench working system of claim 1, wherein the cutting module comprises a cutting device, the cutting device comprising a gang drill device.
7. The woodworking bench working system of claim 1, wherein the cutting module comprises a cutting device, and the cutting device is an electronic cutting saw.
8. The woodworking machine station processing system of any one of claims 1 to 7, wherein the woodworking machine station processing system is applied to a machine station further comprising a labeling process, and the control device further comprises a labeling module in communication with the central control module.
9. The woodworking machine station processing system of any one of claims 1 to 7, wherein the woodworking machine station processing system is applied to a machine station further comprising an edge sealing process, and the control device further comprises an edge sealing module in communication with the central control module.
10. The woodworking machine station processing system of any one of claims 1 to 7, wherein the woodworking machine station processing system is applied to a machine station further comprising labeling and edge sealing processes, the control device further comprises a labeling module and an edge sealing module, and the labeling module and the edge sealing module are respectively in communication connection with the central control module.
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