CN203076629U - Numerical control drill press system based on combination of human-computer interface and controller - Google Patents

Abstract

The utility model relates to a numerical control drill press system based on combination of a human-computer interface and a controller. The numerical control drill press system comprises a power source, and is characterized in that the power source provides electricity for the human-computer interface, the controller, a tool changer, a main shaft encoder and a main shaft. The main shaft comprises a plurality of servo drivers and corresponding servo motors. A communication end of the controller is connected with a communication end of the human-computer interface, a controlling end of the controller is connected with a controlling end of each servo driver, a controlling end of the main shaft encoder and a controlling end of the tool changer, and an output end of each servo driver is connected with one corresponding servo motor. The numerical control drill press system has the advantages of being reasonable in design, simple in structure and flexible and changeable in control programs and user interfaces. Numerical tool operations can be simplified, labor intensity is effectively reduced, functions are complete, the numerical control drill press system is safe and reliable, operation and using are easy and convenient, the user interfaces can be modified conveniently, and different using demands of a user can be met.

Description

The numerical control drilling machine system that combines with controller based on man-machine interface

Technical field

The utility model relates to digital control system, especially a kind of numerical control drilling machine digital control system that combines with controller based on man-machine interface.

Background technology

Programmable logic controller (PLC) (Programmable Logic Controller, PLC), it adopts a class programmable memory, be used for its internally stored program, actuating logic computing, sequential control, regularly, user oriented instructions such as counting and arithmetical operation, and control various types of machineries or production process by numeral or analog I/O.

The many digital control systems of producing of the digital control system that sell the existing market by the typing of digital control system manufacturer, system program and user interface can not be made amendment, and it is not strong to exist specific aim, and user interface is friendly inadequately, operation not only specialty but also complicated general character.

The utility model content

In view of this, the purpose of this utility model provides a kind of numerical control drilling machine digital control system that combines with controller based on man-machine interface, and control program is flexible and changeable, and user interface is visual and understandable, can simplify numerical tool operation, reduces labour intensity effectively.

The utility model adopts following scheme to realize: a kind of numerical control drilling machine system that combines with controller based on man-machine interface, comprise a power supply, it is characterized in that: described power supply is a man-machine interface, a controller, one tool magazine, a spindle encoder and main shaft power supply; Described main shaft comprises a plurality of servo-drivers and corresponding servomotor; The output of described servo-driver connects the servomotor of described correspondence; The communication ends of described controller connects the communication ends of described man-machine interface, and the control end of described controller connects the control end of the control end of described servo-driver, described spindle encoder and the control end of described tool magazine; Described controller also connects a press button, in order to start and to close the described numerical control drilling machine system that combines with controller based on man-machine interface.

In the utility model one embodiment, described man-machine interface is a liquid crystal touch screen.

In the utility model one embodiment, described controller is a programmable logic controller (PLC) or singlechip controller.

In the utility model one embodiment, described tool magazine is the tool magazine of the multiple boring process tool of an installation.

In the utility model one embodiment, described spindle encoder is a pulse coder, and is connected on the described main shaft, is used to detect angle of eccentricity.

In the utility model one embodiment, described servo-driver is AC servo driver, DC servo driver or stepping servo-driver; Described servomotor is AC servo motor, DC servo motor or step-servo motor.

The utlity model has following advantage:

1, reasonable in design, simple in structure, control program and user interface are flexible and changeable, can simplify numerical tool operation, reduce labour intensity effectively;

2, perfect in shape and function, safe and reliable;

3, change drilling parameter easily in the processing automatically, to satisfy the machining state of different cutters;

4, can select hole processing arbitrarily in the processing automatically, it is especially convenient and practical to add man-hour at porous workpiece;

5, do not change user data, just can realize different processing mode conversions by selector button, selectable processing mode has: centre bore draws hole mode, single bore mode and pecks the brill processing mode.

6, manipulate easyly, can make amendment to user interface easily.

Description of drawings

Fig. 1 is the frame diagram of a kind of numerical control drilling machine digital control system that combines with controller based on man-machine interface of the utility model.

Fig. 2 is the workflow diagram of a kind of numerical control drilling machine digital control system that combines with controller based on man-machine interface of the utility model.

The specific embodiment

For making the purpose of this utility model, technical scheme and advantage clearer, below will the utility model be described in further detail by specific embodiment and relevant drawings.

The utility model provides a kind of numerical control drilling machine system that combines with controller based on man-machine interface, comprises a power supply, it is characterized in that: described power supply is a man-machine interface, a controller, one tool magazine, a spindle encoder and main shaft power supply; Described main shaft comprises a plurality of servo-drivers and corresponding servomotor; The output of described servo-driver connects the servomotor of described correspondence; The communication ends of described controller connects the communication ends of described man-machine interface, and the control end of described controller connects the control end of the control end of described servo-driver, described spindle encoder and the control end of described tool magazine; Described controller also connects a press button, in order to start and to close the described numerical control drilling machine system that combines with controller based on man-machine interface.Described controller is a programmable logic controller (PLC) or singlechip controller.

As shown in Figure 1, present embodiment provides a kind of numerical control drilling machine system that combines with controller based on man-machine interface, comprise a power supply 1, it is characterized in that: described power supply 1 is a man-machine interface 2, a controller 3, one tool magazine 4, a spindle encoder 5 and a main shaft 6 power supplies; Described main shaft 6 comprises a plurality of servo-drivers (11,12 ... 1n) and corresponding servomotor (21,22 ... 2n); Described servo-driver (11,12 ... output 1n) connects the servomotor (21,22 of described correspondence ... 2n); The communication ends of described controller 3 connects the communication ends of described man-machine interface 2, and the control end of described controller 3 connects described servo-driver (11,12 ... the control end of the control end of control end 1n), described spindle encoder 5 and described tool magazine 4; Described controller 3 also connects a press button 7, in order to start and to close the described numerical control drilling machine system that combines with controller based on man-machine interface.Described man-machine interface 2 is liquid crystal touch screens.Described tool magazine 4 is tool magazines of the multiple boring process tool of an installation.Described spindle encoder 5 is pulse coders, and is connected on the described main shaft 6, is used to detect main shaft 6 corners.Described servo-driver is an AC servo driver, and corresponding servomotor is an AC servo motor; Described servo-driver is the DC servo driver, and corresponding servomotor is a DC servo motor; Described servo-driver is the stepping servo-driver, and corresponding servomotor is a step-servo motor.Described controller is a programmable logic controller (PLC) or singlechip controller.

Man-machine interface (Human Machine Interaction is called for short HMI) claims user interface or user interface again.Be the media that carries out mutual and information exchange between system and the user, the effect that the realization state shows and user's process data is imported.

In order to make persons skilled in the art better understand hardware configuration of the present utility model, the workflow and the control method of native system is described below in conjunction with the hardware structure of this system.Be noted that the utility model does not require following workflow of protection and control method.

As shown in Figure 2, Fig. 2 is a kind of numerical control drilling machine digital control system workflow diagram that combines with controller based on man-machine interface of the utility model.After the system boot initialization, wait for user operation commands; At this moment, the user can select to be provided with the workpiece data parametric data table, also can select manual operation, can also directly make system carry out automatic cyclic process by " startup " button.Wherein, select to be provided with the workpiece data parametric data table and can import tables of data by the hand input-data table or by USB flash disk; Manual operation can be carried out three crawl positioning actions of start stop operation, XYZ of main shaft and water pump and jump the hole process operation; When system carries out automatic cyclic process, system starts main shaft and water pump, number obtain target location XYZ triaxial coordinate, feed speed and drilling parameter according to the hole on the current man-machine interface then, carry out three of lathe XYZ location fast afterwards, system is declared according to the hole processing mode in the man-machine interface: select centre bore draw the hole mode then system obtain the drill hole degree of depth and carry out the parameter of drill centers and draw hole processing; Select the single bore mode then system obtain get out that the degree of depth is holed, tapping is to getting out the degree of depth, once bored whole hole depths, do not carry out withdrawing midway and arrange and cut; Selection peck bore processing mode then system will set repeatedly withdrawing by drilling parameter and arrange and cut processing, up to machining, and judge at any time whether position, current hole finishes, if also not finish then continue feeding processing, if be through with then according to the hole whether manual input is arranged in the man-machine interface number, if have then according to the hole of manually input and number obtain target location XYZ triaxial coordinate again, proceed number processing of any redirect hole behind feed speed and the drilling parameter, if then the hole number does not add 1 automatically, and judge whether that position, whole hole machines, if undressed intact position, whole hole is then obtained target location XYZ triaxial coordinate again, proceed feeding processing behind feed speed and the drilling parameter, all the position, hole machines in tables of data, then stop main shaft and water pump and three of XYZ are returned initial point when whole holes machine, cutter withdraws from workpiece and returns initial point, finishes process operation.

The utlity model has following advantage: reasonable in design, simple in structure, control program and user interface are flexible and changeable, can simplify numerical tool operation, reduce labour intensity effectively; Perfect in shape and function, safe and reliable; Automatically add and to change the feeding multiplying power man-hour and change tool feeding speed, can change and get out multiplying power and change feed speed when drilling through workpiece, automatically can select hole processing in the processing arbitrarily, do not change user data, just can realize different processing mode conversions by selector button, selectable processing mode has: centre bore draws hole mode, single bore mode and pecks the brill processing mode; Manipulate easyly, can make amendment to user interface easily.

Above-listed preferred embodiment; the purpose of this utility model, technical scheme and advantage are further described; institute is understood that; the above only is preferred embodiment of the present utility model; not in order to restriction the utility model; all within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (6)

1. a numerical control drilling machine system that combines with controller based on man-machine interface comprises a power supply, it is characterized in that: described power supply is a man-machine interface, a controller, a tool magazine, a spindle encoder and main shaft power supply; Described main shaft comprises a plurality of servo-drivers and corresponding servomotor; The output of described servo-driver connects the servomotor of described correspondence; The communication ends of described controller connects the communication ends of described man-machine interface, and the control end of described controller connects the control end of the control end of described servo-driver, described spindle encoder and the control end of described tool magazine; Described controller also connects a press button, in order to start and to close the described numerical control drilling machine system that combines with controller based on man-machine interface.

2. the numerical control drilling machine system that combines with controller based on man-machine interface according to claim 1 is characterized in that: described man-machine interface is a liquid crystal touch screen.

3. the numerical control drilling machine system that combines with controller based on man-machine interface according to claim 1 is characterized in that: described controller is a programmable logic controller (PLC) or singlechip controller.

4. the numerical control drilling machine system that combines with controller based on man-machine interface according to claim 1 is characterized in that: described tool magazine is the tool magazine of the multiple boring process tool of an installation.

5. the numerical control drilling machine system that combines with controller based on man-machine interface according to claim 1, it is characterized in that: described spindle encoder is a pulse coder, and is connected on the described main shaft, is used to detect angle of eccentricity.

6. the numerical control drilling machine system that combines with controller based on man-machine interface according to claim 1 is characterized in that: described servo-driver is AC servo driver, DC servo driver or stepping servo-driver; Described servomotor is AC servo motor, DC servo motor or step-servo motor.

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