CN204736007U - Robotic arm's control system - Google Patents

Abstract

The utility model discloses a robotic arm's control system, this system includes: feeding mechanism, first solenoid valve, second solenoid valve, third solenoid valve, fourth solenoid valve, servo motor, the 5th solenoid valve and controller, the controller is electric connection in feeding mechanism, first solenoid valve, second solenoid valve, third solenoid valve, fourth solenoid valve, servo motor and the 5th solenoid valve respectively. Implement the beneficial effects of the utility model are that, through string start -up routine of income computer lathe, but this control system wide application in digit control machine tool and machining center realize computer lathe and robotic arm's seamless butt joint, realize the processing of full automatic no humanization.

Description

A kind of control system of mechanical arm

Technical field

The utility model relates to mechanical arm applied technical field, particularly relates to a kind of control system of mechanical arm.

Background technology

Digit Control Machine Tool is a kind of automated machine tool that program control system is housed.This control system can logically process has control coding or other symbolic instruction regulated procedures, and by its decoding, by the numeral of encode, inputs numerical control device by information carrier.Send various control signal through calculation process by numerical control device, control the action of lathe, shape and size by drawing, automatically process part.Digit Control Machine Tool solves the part processing problems of complexity, precision, small lot, multi items preferably, is a kind of flexibility, dynamical automated machine tool, represents the developing direction of modern machine control technology, is a kind of typical electromechanical integrated product.

The mechanical arm of Digit Control Machine Tool can imitate some holding function of staff and arm, in order to capture, to carry the automatic pilot of object or operation tool by fixed routine.Manipulator is the industrial robot occurred the earliest, is also the modern machines people occurred the earliest, and it can replace the heavy labor of people to realize mechanization and the automation of production, can operate to protect personal safety under hostile environment.

Its major defect of special-purpose machinery arm that current prior art is the formulation of numerically controlled lathe or machining center is that control circuit cost is high, and the ability of operative employee has requirement, and not easily revises its action formula.

Utility model content

In view of this, the purpose of this utility model is the control system providing a kind of mechanical arm, and be intended to solve control circuit cost in prior art high, the ability of operative employee has requirement, and not easily revises the technical problem of its action formula.

The technical solution of the utility model realizes as follows:

A kind of control system of mechanical arm is provided, comprises:

For providing the feed mechanism of workpiece;

The first magnetic valve of preset strokes is moved along first direction for driving slide unit cylinder traction feed clamp and feeding fixture;

For the second magnetic valve driving pusher cylinder described workpiece to be pushed described feed clamp;

Clamp described workpiece for driving described feed clamp and move the 3rd magnetic valve of preset strokes along second direction;

For the 4th magnetic valve driving cylinder of setting a table to drive described slide unit cylinder to rotate;

For the servomotor driving described slide unit cylinder to move preset strokes along third direction;

Take out for driving feeding fixture and clamp described workpiece to be put the 5th magnetic valve of the predeterminated position to conveyer belt; And

For controlling the controller of described feed mechanism, described first magnetic valve, described second magnetic valve, described 3rd magnetic valve, described 4th magnetic valve, described servomotor and described 5th electromagnetic valve work, it is electrically connected at described feed mechanism, described first magnetic valve, described second magnetic valve, described 3rd magnetic valve, described 4th magnetic valve, described servomotor and described 5th magnetic valve respectively.

In control system described in the utility model, also comprise:

For controlling the first relay of described first electromagnetic valve switch, described first relay comprises the first switch and the first coil, described first switch is electrically connected between described first magnetic valve and described controller, and described first coil is electrically connected at described controller;

For controlling the second relay of described second electromagnetic valve switch, described second relay comprises second switch and the second coil, described second switch is electrically connected between described second magnetic valve and described controller, and described second coil is electrically connected at described controller;

For controlling the 3rd relay of described 3rd electromagnetic valve switch, described 3rd relay comprises the 3rd switch and tertiary coil, described 3rd switch is electrically connected between described 3rd magnetic valve and described controller, and described tertiary coil is electrically connected at described controller;

For controlling the 4th relay that described 4th electromagnetic valve switch is rotated counterclockwise with cylinder of setting a table described in driving, described 4th relay comprises the 4th switch and the 4th coil, described 4th switch is electrically connected between described 4th magnetic valve and described controller, and described 4th coil is electrically connected at described controller;

For controlling the 5th relay of servomotor switch, it is electrically connected at described controller;

For controlling the 6th relay of described 5th electromagnetic valve switch, described 6th relay comprises the 6th switch and the 6th coil, described 6th switch is electrically connected between described 5th magnetic valve and described controller, and described 6th coil is electrically connected at described controller;

For controlling the 7th relay that described 4th electromagnetic valve switch turns clockwise with cylinder of setting a table described in driving, described 7th relay comprises the 7th switch and the 7th coil, described 7th switch is electrically connected between described 4th magnetic valve and described controller, and described 7th coil is electrically connected at described controller.

In control system described in the utility model, also comprise:

For controlling the 8th relay of safety door closedown and procedure switch, it is electrically connected at described controller.

In control system described in the utility model, also comprise:

For open described safety door and feedback signal to the inductive switch of described controller, it is electrically connected at described controller.

In control system described in the utility model, also comprise:

For starting the starting switch of described control system, it is connected to external ac power source and is electrically connected at described controller.

Therefore, the beneficial effects of the utility model are, by sealing in the start-up routine of computer lathe, this control system can be widely used in Digit Control Machine Tool and machining center, realizes the slitless connection of computer lathe and mechanical arm, realize full automatic unmanned processing.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

The structural representation of the control system of a kind of mechanical arm that Fig. 1 provides for the utility model;

The flow chart of the control method of a kind of mechanical arm that Fig. 2 provides for the utility model;

The structural scheme of mechanism of the robot that Fig. 3 provides for the utility model;

The vehicle window side scheme of installation that Fig. 4 provides for the utility model;

The machining center side scheme of installation that Fig. 5 provides for the utility model.

Detailed description of the invention

In order to there be understanding clearly to technical characteristic of the present utility model, object and effect, describe contrast accompanying drawing in detail detailed description of the invention of the present utility model below.Should be appreciated that following explanation is only the concrete elaboration of the utility model embodiment, protection domain of the present utility model should do not limited with this.

The utility model provides a kind of control system 100 of mechanical arm, its object is to, in the application of the mechanical arm of the occasions such as Digit Control Machine Tool, simplicity of design, repetition, fixing mechanical action replace artificial, carry out technical optimization by adopting simple control system 100 and low-cost electronic components and realize its ease for use and economy, its major control be the working procedure of servomotor 106, such as forward-reverse and automatically send and get workpiece.Therefore in the utility model, robot also refers in particular to the control system 100 of this mechanical arm.

The structural representation of the control system 100 of a kind of mechanical arm provided for the utility model see Fig. 1, Fig. 1, the control system 100 of this mechanical arm comprises:

For providing the feed mechanism 101 of workpiece; Feed mechanism 101 generally comprises vibrating disk 1, and vibrating disk 1 inside is provided with vibrating disk 1 motor, is electrically connected to vibrating disk 1 motor by controller 108, thus the workpiece being in vibrating disk 1 place is sent into hopper 2.

Feed clamp 6 is drawn and feeding fixture 5 moves the first magnetic valve 102 of preset strokes along first direction for driving slide unit cylinder 8; Feed clamp 6 and feeding fixture 5 are fixed on slide unit cylinder 8 by clamping fixture seat 4, and are arranged at the two ends of described clamping fixture seat 4.Slide unit cylinder 8 is arranged at the side of work main 16, can relative to work main 16 horizontal movements.

For the second magnetic valve 103 driving pusher cylinder 3 described workpiece to be pushed described feed clamp 6;

Clamp described workpiece for driving described feed clamp 6 and move the 3rd magnetic valve 104 of preset strokes along second direction;

For the 4th magnetic valve 105 driving cylinder 7 of setting a table to drive described slide unit cylinder 8 to rotate; Cylinder 7 of setting a table is arranged between slide unit cylinder 8 and clamping fixture seat 4, can rotate in the vertical direction of horizontal plane.

The servomotor 106 of preset strokes is moved along third direction for driving described slide unit cylinder 8; Servomotor 106 is arranged at work main 16 surface, and the servo motor driven by its inside is moved to vibrating disk 1 direction.

Take out for driving feeding fixture 5 and clamp described workpiece to be put the 5th magnetic valve 107 of the predeterminated position to conveyer belt; And

For controlling the controller 108 that described feed mechanism 101, described first magnetic valve 102, described second magnetic valve 103, described 3rd magnetic valve 104, described 4th magnetic valve 105, described servomotor 106 and described 5th magnetic valve 107 work, it is electrically connected at described feed mechanism 101, described first magnetic valve 102, described second magnetic valve 103, described 3rd magnetic valve 104, described 4th magnetic valve 105, described servomotor 106 and described 5th magnetic valve 107 respectively.Controller 108 is also cyclelog 108.Controller 108 is touch screen forms, can external computer programming, also can independently programme.

In addition, described control system 100 also comprises:

For controlling the first relay 109 of described first magnetic valve 102 switch, described first relay 109 comprises the first switch 1091 and the first coil 1092, described first switch 1091 is electrically connected between described first magnetic valve 102 and described controller 108, and described first coil 1092 is electrically connected at described controller 108;

For controlling the second relay 110 of described second magnetic valve 103 switch, described second relay 110 comprises second switch 1101 and the second coil 1102, described second switch 1101 is electrically connected between described second magnetic valve 103 and described controller 108, and described second coil 1102 is electrically connected at described controller 108;

For controlling the 3rd relay 111 of described 3rd magnetic valve 104 switch, described 3rd relay 111 comprises the 3rd switch 1111 and tertiary coil 1112, described 3rd switch 1111 is electrically connected between described 3rd magnetic valve 104 and described controller 108, and described tertiary coil 1112 is electrically connected at described controller 108;

For controlling the 4th relay 112 that described 4th magnetic valve 105 switch is rotated counterclockwise with cylinder 7 of setting a table described in driving, described 4th relay 112 comprises the 4th switch 1121 and the 4th coil 1122, described 4th switch 1121 is electrically connected between described 4th magnetic valve 105 and described controller 108, and described 4th coil 1122 is electrically connected at described controller 108;

For controlling the 5th relay 113 of servomotor 106 switch, it is electrically connected at described controller 108;

For controlling the 6th relay 114 of described 5th magnetic valve 107 switch, described 6th relay 114 comprises the 6th switch 1141 and the 6th coil 1142, described 6th switch 1141 is electrically connected between described 5th magnetic valve 107 and described controller 108, and described 6th coil 1142 is electrically connected at described controller 108;

For controlling the 7th relay 115 that described 4th magnetic valve 105 switch turns clockwise with cylinder 7 of setting a table described in driving, described 7th relay 115 comprises the 7th switch 1151 and the 7th coil 1152, described 7th switch 1151 is electrically connected between described 4th magnetic valve 105 and described controller 108, and described 7th coil 1152 is electrically connected at described controller 108.

For controlling the 8th relay 116 of safety door closedown and procedure switch, it is electrically connected at described controller 108.

For open described safety door and feedback signal to the inductive switch 9 of described controller 108, it is electrically connected at described controller 108.

For starting the starting switch 117 of described control system 100, it is connected to external ac power source and is electrically connected at described controller 108.

The flow chart of the control method of a kind of mechanical arm provided for the utility model see Fig. 2, Fig. 2, the control method of this mechanical arm, the above-mentioned control system 100 of the method, comprises the following steps:

S1, feed mechanism 101 provide workpiece; Such as, when pressing starting switch 117, feeder motor starting, self-feeding starts.

S2, the first magnetic valve 102 drives slide unit cylinder 8 to draw feed clamp 6 and feeding fixture 5 moves preset strokes along first direction; Such as, start computer lathe, lathe safety door is opened, click the switch touched on cyclelog 108 (touch) again, its control system 100 starts, and cyclelog 108 outputs signal to KM1 coil (i.e. the first coil 1092), and KM1 (i.e. the first switch 1091) often opens adhesive, slide unit cylinder is made to start and move to autoloader hopper 2 direction (structural scheme of mechanism see the robot that Fig. 3, Fig. 3 provide for the utility model);

S3, the second magnetic valve 103 drive pusher cylinder 3 that described workpiece is pushed described feed clamp 6; After slide unit cylinder arrives the position of setting, cyclelog 108 outputs signal to KM2 coil (i.e. the second coil 1102), the normal opening and closing of KM2 (i.e. second switch 1101) is closed, and workpiece pushes in feed clamp 6 by the startup of pusher cylinder, after pusher cylinder setting stroke.

S4, the 3rd magnetic valve 104 drive described feed clamp 6 clamp described workpiece and move preset strokes along second direction; After described feed clamp 6 clamps described workpiece arrival preset strokes, controller 108 controls described first magnetic valve 102 and described second magnetic valve 103 quits work, thus described slide unit cylinder 8 and described pusher cylinder 3 are kept in the center.Cyclelog 108 outputs signal to KM3 coil (i.e. tertiary coil 1112), and the normal opening and closing of KM3 (i.e. the 3rd switch 1111) is closed, and makes feed clamp 6 clamping work pieces.Subsequently, after feed clamp 6 clamping work pieces reaches setting stroke, cyclelog 108 disconnects KM1 and KM2 coil signal, KM1 and KM2 often cut-offs out, and slide unit cylinder and pusher cylinder return original position because of power-off (because power-off loses pneumatics or hydraulic pressure simultaneously).

S5, the 4th magnetic valve 105 drive cylinder 7 of setting a table to drive described slide unit cylinder 8 to rotate; Such as, cyclelog 108 outputs signal KM4 coil (i.e. the 4th coil 1122), and the normal opening and closing of KM4 (i.e. the 4th switch 1121) is closed, and three cylinders of setting a table are rotated counterclockwise 180 degree.

S6, servomotor 106 drive described slide unit cylinder 8 to move preset strokes along third direction; Described controller 108 controls servomotor 106 and rotates, thus drives described slide unit cylinder 8 to move preset strokes along third direction.Such as, when clamping fixture seat 4 rotates to setting stroke, cyclelog 108 output pulse signal is to electric machine controller 108, and servomotor 106 rotates forward, and band slide unit cylinder and feed clamp 6 forward (safety door direction) are mobile.

S7, the 5th magnetic valve 107 drive feeding fixture 5 to take out and clamp described workpiece to be put the predeterminated position to conveyer belt.Wherein, described step S7 comprises following sub-step:

S701, described controller 108 control described first magnetic valve 102 and work, thus make described slide unit cylinder 8 move preset strokes to described first direction; Such as, when servomotor 106 moves forward to desired location by programme-control, cyclelog 108 outputs signal KM1 coil, and the normal opening and closing of KM1 is closed, and slide unit cylinder moves to computer lathe chuck direction.

The main shaft fixture that S702, described controller 108 control described servomotor 106 unclamps described workpiece; After moving to desired location, cyclelog 108 outputs signal to KM5 (i.e. the 5th relay 113), and to signal computer lathe when KM5 closes, computer lathe main shaft fixture unclamps.

S703, described 5th magnetic valve 107 drive feeding fixture 5 to take out and clamp described workpiece; Cyclelog 108 outputs signal KM6 coil (i.e. the 6th coil 1142), and the normal opening and closing of KM6 (i.e. the 6th switch 1141) is closed, feeding fixture 5 clamping work pieces.

S704, described controller 108 control described first magnetic valve 102 and quit work, and described slide unit cylinder 8 is kept in the center; Namely cyclelog 108 outputs signal to KM1 coil blackout, and KM1 often cut-offs out, and slide unit cylinder is return.

S705, described 4th magnetic valve 105 drive cylinder 7 of setting a table to drive described slide unit cylinder 8 to rotate; Such as, cyclelog 108 outputs signal KM7 coil (i.e. the 7th coil 1152), and the normal opening and closing of KM7 (i.e. the 7th switch 1151) is closed, three cylinder dextrorotation turnbacks of setting a table.

S706, described first magnetic valve 102 drives slide unit cylinder 8 to draw feed clamp 6 and feeding fixture 5 moves preset strokes along first direction; Cyclelog 108 outputs signal KM1 coil, and the normal opening and closing of KM1 is closed, and slide unit cylinder moves to computer lathe main shaft chuck direction.

Workpiece described in the main shaft clamp that S707, described controller 108 control described servomotor 106; After slide unit cylinder moves to setting stroke, cyclelog 108 disconnects KM5 coil, and KM5 often cut-offs out, and transmission of signal is to computer lathe control program, and chuck clamps.

S708, described controller 108 control described 3rd magnetic valve 104 and quit work, thus make described feed clamp 6 unclamp described workpiece; Cyclelog 108 disconnects to signal KM3 coil, and KM3 often cut-offs out, and feed clamp 6 unclamps.

S709, described controller 108 control described first magnetic valve 102 and quit work, and described slide unit cylinder 8 is kept in the center; Cyclelog 108 disconnects KM1 coil, and KM1 often cut-offs out, and slide unit cylinder is return.

S710, described servomotor 106 drive described slide unit cylinder 8 to move back to initial point along third direction; Cyclelog 108 output pulse signal is to electric machine controller 108 subsequently, and servomotor 106 reverses and gets back to initial point.

S711, described controller 108 control the 8th relay 116 to make safety door close and to start procedure; Cyclelog 108 outputs signal KM8 coil, and the normal opening and closing of KM8 is closed, and computer lathe safety door is closed, and the energising of computer lathe main program starts procedure.Usually, the 8th relay 116 comprises KM8 coil and KM8.

S712, described controller 108 control described 5th magnetic valve 107 and quit work, thus make described feeding fixture 5 unclamp described workpiece to be put the predeterminated position to conveyer belt.Disconnect KM6 coil power, KM6 often cut-offs out, and feeding fixture 5 unclamps (product processed falls into the conveyer belt position of setting).

S713, after described step S712, after described workpiece machines according to procedure, open described safety door and feedback signal to described controller 108; After the product on computer lathe processes product according to its formula, safety door is opened, and after it is opened to desired location, its inductive switch 9 is connected, and to signal to mechanical arm.

S714, described controller 108 judge that described work pieces process completes, and go to step S1.Mechanical arm connection restarts a new cycle program, and repeats running.

See Fig. 3, this mechanical arm also comprises: induction contactor 10, motor bearing 11, tooth bar 12, mechanical arm 13, reductor 14, servo motor 15, lifting column 17, elevating bracket 18, base 19, movable pulley 20 and feet 21.

In addition, the control system 100 of this mechanical arm and control method can be applicable to Digit Control Machine Tool (see Fig. 4, Fig. 4 is vehicle window side provided by the invention scheme of installation) and machining center (be provided by the invention machining center side scheme of installation see Fig. 5, Fig. 5).Wherein, Fig. 4 includes Digit Control Machine Tool 300, robot (i.e. the control system 100 of mechanical arm) and conveyer belt 200, Fig. 5 and includes machining center 400, robot (i.e. the control system 100 of mechanical arm) and conveyer belt 200.

Although the utility model with preferred embodiment openly as above; but it is not for limiting the utility model; any those skilled in the art are not departing from spirit and scope of the present utility model; can make possible variation and amendment, the scope that therefore protection domain of the present utility model should define with the utility model claim is as the criterion.

Claims (5)

1. a control system for mechanical arm, is characterized in that, comprising:

For providing the feed mechanism of workpiece;

The first magnetic valve of preset strokes is moved along first direction for driving slide unit cylinder traction feed clamp and feeding fixture;

For the second magnetic valve driving pusher cylinder described workpiece to be pushed described feed clamp;

Clamp described workpiece for driving described feed clamp and move the 3rd magnetic valve of preset strokes along second direction;

For the 4th magnetic valve driving cylinder of setting a table to drive described slide unit cylinder to rotate;

For the servomotor driving described slide unit cylinder to move preset strokes along third direction;

Take out for driving feeding fixture and clamp described workpiece to be put the 5th magnetic valve of the predeterminated position to conveyer belt; And

For controlling the controller of described feed mechanism, described first magnetic valve, described second magnetic valve, described 3rd magnetic valve, described 4th magnetic valve, described servomotor and described 5th electromagnetic valve work, it is electrically connected at described feed mechanism, described first magnetic valve, described second magnetic valve, described 3rd magnetic valve, described 4th magnetic valve, described servomotor and described 5th magnetic valve respectively.

2. control system according to claim 1, is characterized in that, also comprises:

For controlling the first relay of described first electromagnetic valve switch, described first relay comprises the first switch and the first coil, described first switch is electrically connected between described first magnetic valve and described controller, and described first coil is electrically connected at described controller;

For controlling the second relay of described second electromagnetic valve switch, described second relay comprises second switch and the second coil, described second switch is electrically connected between described second magnetic valve and described controller, and described second coil is electrically connected at described controller;

For controlling the 3rd relay of described 3rd electromagnetic valve switch, described 3rd relay comprises the 3rd switch and tertiary coil, described 3rd switch is electrically connected between described 3rd magnetic valve and described controller, and described tertiary coil is electrically connected at described controller;

For controlling the 4th relay that described 4th electromagnetic valve switch is rotated counterclockwise with cylinder of setting a table described in driving, described 4th relay comprises the 4th switch and the 4th coil, described 4th switch is electrically connected between described 4th magnetic valve and described controller, and described 4th coil is electrically connected at described controller;

For controlling the 5th relay of servomotor switch, it is electrically connected at described controller;

For controlling the 6th relay of described 5th electromagnetic valve switch, described 6th relay comprises the 6th switch and the 6th coil, described 6th switch is electrically connected between described 5th magnetic valve and described controller, and described 6th coil is electrically connected at described controller;

For controlling the 7th relay that described 4th electromagnetic valve switch turns clockwise with cylinder of setting a table described in driving, described 7th relay comprises the 7th switch and the 7th coil, described 7th switch is electrically connected between described 4th magnetic valve and described controller, and described 7th coil is electrically connected at described controller.

3. control system according to claim 2, is characterized in that, also comprises:

For controlling the 8th relay of safety door closedown and procedure switch, it is electrically connected at described controller.

4. control system according to claim 3, is characterized in that, also comprises:

For open described safety door and feedback signal to the inductive switch of described controller, it is electrically connected at described controller.

5. control system according to claim 1, is characterized in that, also comprises:

For starting the starting switch of described control system, it is connected to external ac power source and is electrically connected at described controller.