CN205170919U - Unloading system of processing on lathe based on robot - Google Patents

Abstract

The utility model discloses an unloading system of processing on lathe based on robot, this system includes: first lathe for the part will be waited to process and the processing first time will be carried out, the second lathe for carry out secondary operation with output secondary operation spare to primary processing spare, the unloading district that transfer chain, transfer chain were equipped with the material loading district that is located the head end and were located the tail end, and the transfer chain is equipped with the robot at the interlude and gets material level and robot blowing position, the robot for to wait to process the part gets the material level from the robot and shifts to first lathe, shifts primary processing spare and shift to robot blowing position to the second lathe and with secondary operation spare. Having satisfied unloading demand in multistation machine tool machining's the automation, having compared with prior art, saved the manpower, reduced intensity of labour, improved the automatic level of online processing, promoted machining efficiency, its human error such as work piece scraping of having avoided manual operation to result in has greatly reduced the work piece disability rate.

Description

Based on the lathe loading and unloading system of processing of robot

Technical field

The utility model relates to machine tooling field, especially, relates to a kind of lathe loading and unloading system of processing based on robot.

Background technology

In existing machine process, generally need to carry out operation of feeding and discharging manually, or truss mechanical manipulator is supporting carries out loading and unloading operation.Wherein, during manual operation, need every platform lathe all manninves, labor intensive resource; And some lathe is if annealing lathe is because there being high temperature, to manually there is potential safety hazard.And although truss mechanical manipulator achieves automatization to a certain extent, but due to the motion of XYZ tri-axles can only be completed, the a whole set of complete processing relating to multiple station as wanted then is restricted, therefore the application of existing truss mechanical manipulator also has certain limitation, need a kind of automatic loading and unloading system and working method being applicable to multi-station machine tool processing of design badly.

Utility model content

The utility model provides a kind of lathe loading and unloading system of processing based on robot, large and there is potential safety hazard and the limited technical problem that cannot meet multi-station machine tool processing of the application of truss mechanical manipulator to solve labour intensity that existing manual loading and unloading operation causes.

The technical solution adopted in the utility model is as follows:

A kind of lathe loading and unloading system of processing based on robot is provided, comprises:

First lathe, for carrying out first time processing to export first workpiece by part to be processed;

Second lathe, for carrying out second time processing to export secondary processing part to first workpiece;

Transfer limes, for online transferring work piece to be connected processing stations, transfer limes is provided with the feeding area being positioned at head end and the discharging area being positioned at tail end, and transfer limes is provided with robot feeding position and robot blowing position at interlude;

Robot, for by part to be processed from robot feeding bit transition to the first lathe, first workpiece is transferred to the second lathe and secondary processing part is transferred to robot blowing position.

Further, the output terminal of the first lathe is provided with for supporting first workpiece so that first mechanism of robotic gripper, the output terminal of the second lathe be provided with for support secondary processing part so that second mechanism of robotic gripper.

Further, feeding area is artificial feeding area, and discharging area is artificial discharging area, and multiple part to be processed is positioned on transfer limes, with the multiple workpiece of disposable transfer on the conveyor line in artificial loading district through material frame.

Further; robot comprises mechanical manipulator and coordinates the fixture in order to holding workpiece with mechanical manipulator; the end mounting flange of mechanical manipulator; fixture comprises: transition mounting plate; ring flange connects cylinder mounting plate through transition mounting plate, and cylinder mounting plate is provided with cylinder, and the output terminal of cylinder connects the holding finger being used for holding workpiece; the gas circuit of cylinder connects the guide's check valve for protection of dying through right angle adapter, and guide's check valve is parallel to holding finger to dodge interference.

Further, the bottom of material frame is provided with the pin bush for locating, and be provided with in material frame and expect the back up pad for supporting workpiece that the sidewall of frame is flexibly connected, back up pad is provided with multiple pilot hole for positioning workpieces;

Robot feeding position and robot blowing position are equipped with for coordinating with pin bush with the steady brace of positioning material frame.

Further, robot feeding position and robot blowing position are equipped with the tail rod and stopper section of being convenient to steady brace and pin bush contraposition.

Further, robot feeding position is provided with the lifting body for back up pad jacking to be convenient to clamping after position confined by material to make workpiece expose.

Further, the protective fence for preventing personnel from entering operating area is also comprised based on the lathe loading and unloading system of processing of robot.

The utility model has following beneficial effect:

The utility model is based on the lathe loading and unloading system of processing of robot, by transfer limes transferring work piece to be connected processing stations, and transfer limes sets gradually feeding area, robot feeding position, robot blowing position, discharging area, and robot is at transfer limes, transmit between the first lathe and the second lathe and shift workpiece, meet the automatic loading/unloading demand of multi-station machine tool processing, compared with prior art, save manpower, reduce labour intensity, improve the automatization level of on-line machining, improve working (machining) efficiency, which obviate the human errors such as the workpiece scraping that manual operation causes, significantly reduce workpiece condemnation factor.

Except object described above, feature and advantage, the utility model also has other object, feature and advantage.Below with reference to figure, the utility model is described in further detail.

Accompanying drawing explanation

The accompanying drawing forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the structural representation of the utility model preferred embodiment based on the lathe loading and unloading system of processing of robot;

Fig. 2 is the structural representation of the utility model preferred embodiment transfer limes;

Fig. 3 is the structural representation of the utility model preferred embodiment material frame;

Fig. 4 is the side-looking structural representation of the utility model preferred embodiment material frame;

Fig. 5 is the opposite side TV structure schematic diagram of the utility model preferred embodiment material frame;

Fig. 6 is the structural representation of material level in the utility model preferred embodiment robot;

Fig. 7 is the schematic side view of Fig. 6;

Fig. 8 is the structural representation of the utility model preferred embodiment fixture;

Fig. 9 is another structural representation of the utility model preferred embodiment fixture.

Description of reference numerals:

10, the first lathe;

20, the second lathe;

30, transfer limes; 31, feeding area; 32, discharging area; 33, robot feeding position;

34, robot blowing position; 35, steady brace; 36, tail rod; 37, stopper section;

38, side push mechanism; 39, lifting body;

40, robot; 41, ring flange;

50, frame is expected; 51, pin bush; 52, back up pad; 53, pilot hole; 54, handle; 55, recess;

60, part to be processed;

70, fixture; 72, transition mounting plate; 73, cylinder mounting plate;

74, cylinder; 75, holding finger; 76, right angle adapter; 77, guide's check valve;

80, protective fence.

Embodiment

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

With reference to Fig. 1, preferred embodiment of the present utility model provides a kind of lathe loading and unloading system of processing based on robot, comprising:

First lathe 10, carries out first time processing to export first workpiece for treating processing parts 60;

Second lathe 20, for carrying out second time processing to export secondary processing part to first workpiece;

Transfer limes 30, for online transferring work piece to be connected processing stations, transfer limes 30 is provided with the feeding area 31 being positioned at head end and the discharging area 32 being positioned at tail end, and transfer limes 30 is provided with robot feeding position 33 and robot blowing position 34 at interlude;

Robot 40, for being transferred to the first lathe 10, first workpiece being transferred to the second lathe 20 and secondary processing part is transferred to robot blowing position 34 from robot feeding position 33 by part 60 to be processed.

In the present embodiment, first lathe 10, second lathe 20 and transfer limes 30 carry out layout according to the factor of the working radius of robot 40 and workpiece unique characteristics, by transfer limes 30 transferring work piece to be connected processing stations, and transfer limes 30 sets gradually feeding area 31, robot feeding position 33, robot blowing position 34, discharging area 32, and robot 40 is at transfer limes 30, transmit between the first lathe 10 and the second lathe 20 and shift workpiece, meet the automatic loading/unloading demand of multi-station machine tool processing, compared with prior art, save manpower, reduce labour intensity, improve the automatization level of on-line machining, improve working (machining) efficiency, which obviate the human errors such as the workpiece scraping that manual operation causes, significantly reduce workpiece condemnation factor.When being especially applied to the second lathe 20 for high-temperature service environment, after applied robot 40 replaces artificial loading and unloading, without the need to artificial high-temperature service, and avoid the high temperature workpiece manually the second lathe 20 the processed workpiece that operation causes that frames up and scrape scratch, cause workpiece to scrap.The present embodiment applied robot performs workpiece transfer action like clockwork, significantly reduces and abrades by workpiece the workpiece condemnation factor caused.

Preferably, in order to improve the working (machining) efficiency of workpiece, in the present embodiment, first lathe 10 and the second lathe 20 synchronization job, the output terminal of the first lathe 10 is provided with for supporting first workpiece so that the first mechanism of robot 40 clamping, and the output terminal of the second lathe 20 is provided with for supporting secondary processing part so that the second mechanism of robot 40 clamping.In the present embodiment, the first mechanism, the second mechanism can adopt positioning support bracer, and its structure is mated with first workpiece, secondary processing part.。

With reference to Fig. 2, in the present embodiment, feeding area 31 be artificial feeding area, and discharging area 32 is artificial discharging area, multiple part 60 to be processed in artificial loading district 31 through expecting that frame 50 is positioned on transfer limes 30, with on transfer limes 30 once property shift multiple workpiece.

With reference to Fig. 3 to Fig. 5, the bottom of the present embodiment material frame 50 is provided with the pin bush 51 for locating, and be provided with in material frame 50 and expect the back up pad 52 for supporting workpiece that the sidewall of frame 50 is flexibly connected, back up pad 52 is provided with multiple pilot hole 53 for positioning workpieces; In the present embodiment, back up pad 52 is provided with 15 pilot holes 53, and namely single material frame can hold 15 workpiece by single.With reference to Fig. 2, robot feeding position 33 and robot blowing position 34 are equipped with the steady brace 35 for coordinating with pin bush 51 with positioning material frame 50.Expect frame 50 and pass through pin bush 51 between transfer limes 30 and locate coordinating of steady brace 35.Preferably, with reference to Fig. 5, material frame 50 is provided with the handle 54 being convenient to a dead lift.More preferably, the bottom of material frame 50 is provided with recess 55, so that material frame is along stacked in its short transverse.

Preferably, with reference to Fig. 2, robot feeding position 33 and robot blowing position 34 are equipped with the tail rod 36 and stopper section 37 of being convenient to steady brace 35 and pin bush 51 contraposition.Material frame 50 on transfer limes 30, through tail rod 36 and stopper section 37, makes steady brace 35 and pin bush 51 locate reliably, is convenient to robot 40 accurately grabbing workpiece.More preferably, in order to accurate location, robot feeding position 33 and robot blowing position 34 are provided with the side push mechanism 38 being convenient to expect frame contraposition.Preferably, with reference to Fig. 6 and Fig. 7, robot feeding position 33 is provided with the lifting body 39 for back up pad 52 jacking to be convenient to clamping after material frame 50 is located to make workpiece expose.The present embodiment by lifting body 39 by workpiece jacking to expose clamping face, be convenient to robot transfer workpiece time gripping, and avoid material frame 50 and robot 40 between interference.

In the present embodiment, robot 40 comprises mechanical manipulator and coordinates the fixture 70 in order to holding workpiece with mechanical manipulator, with reference to Fig. 8 and Fig. 9, the end of mechanical manipulator is provided with ring flange 41, the present embodiment fixture 70 comprises: transition mounting plate 72, ring flange 41 connects cylinder mounting plate 73 through transition mounting plate 72, cylinder mounting plate 73 is provided with cylinder 74, the output terminal of cylinder 74 connects the holding finger 75 being used for holding workpiece, the gas circuit of cylinder 74 connects the guide's check valve 77 for protection of dying through right angle adapter 76, guide's check valve 77 is parallel to holding finger 75 to dodge interference.The present embodiment fixture 70 compact construction; the protection and the power-off achieving fixture 70 by arranging guide's check valve 77 is died; and allow guide's check valve 77 be parallel to holding finger 75 by right angle adapter 76, be applicable to avoid operation to interfere within the scope of limited narrow space.Preferably, the present embodiment holding finger 75 ensures hardness by thermal treatment, and designs enough thin, makes robot in its limited operation space, obtain maximum safety and captures scope.

Preferably, the present embodiment fixture 70 adopts two handgrip design, namely cylinder mounting plate 73 is designed with two groups of cylinders 74 and two groups of holding fingers 75, cylinder 74 is corresponding with holding finger 75, and often organize cylinder 74 gas circuit on right angle adapter 76 and guide's check valve 77 are all set.The present embodiment adopts two handgrip design, improves the operation beat of on-line machining, is conducive to improving working (machining) efficiency.

Preferably, with reference to Fig. 1, the present embodiment also comprises the protective fence 80 for preventing personnel from entering operating area based on the lathe loading and unloading system of processing of robot, and the people effectively stopped in the course of processing hinders accident.With reference to Fig. 1, the present embodiment protective fence 80 comprises the electronic guardrail and electronic lock that are in robot manipulating task zone iimit place, and electronic guardrail or electronic lock are used for generating the first data when personnel enter operating area to controller.Such as, electronic guardrail can adopt infrared proximity transducer to generate detection signal, stops robot manipulating task when controller receives this detection signal.Effectively improve the safe reliability in the course of processing.

According to another aspect of the present utility model, also provide a kind of lathe loading and unloading working method based on robot, adopt the lathe loading and unloading system of processing based on robot of above-described embodiment, the present embodiment method comprises:

Part 60 to be processed is passed to robot feeding position 33 from feeding area 31 along transfer limes 30;

Part 60 to be processed is transferred to the first lathe 10 and carries out first time processing by robot 40;

First workpiece is transferred to the second lathe 20 from the output terminal of the first lathe 10 and carries out second time processing by robot 40; In this step, blowing after the first feeding of two handgrips of robot 40, to ensure the continuity of processing;

Secondary processing part is transferred to robot blowing position 34 from the output terminal of the second lathe 20 by robot 40;

Secondary processing part is transferred to discharging area 32 through transfer limes 30.

In the present embodiment course of processing, part 60 to be processed is multiple to robot feeding position 33 through the synchronous transfer on transfer limes 30 of material frame 50, and correspondingly, secondary processing part is multiple to discharging area 32 through the synchronous transfer on transfer limes 30 of material frame 50.Such as, in a particular embodiment, in artificial loading district through the disposable material loading of material frame 50 15, and be passed to robot feeding position 33 through transfer limes 30, robot is successively by workpiece transfer to the first lathe 10, second lathe 20 is processed, and the workpiece after secondary processing is transferred to the material frame 50 being positioned at robot blowing position 34 place by robot, until the workpiece of robot feeding position 33 place material frame 50 correspondence is transferred as sky, in the material frame 50 at robot blowing position 34 place, material is placed complete, then material frame 50 shifts by transfer limes 30, namely the sky material frame 50 at robot feeding position 33 place is transferred to robot blowing position 34 and sentences reception workpiece, the material frame 50 that robot blowing position 34 place fills workpiece is transferred to artificial discharging area, so that workman carries material frame, and workman carries workpiece to transfer limes 30 in artificial loading district through material frame 50, the processing of more than one piece workpiece is carried out with on-line continuous.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (8)

1., based on a lathe loading and unloading system of processing for robot, it is characterized in that, comprising:

First lathe (10), for carrying out first time processing to export first workpiece by part to be processed (60);

Second lathe (20), for carrying out second time processing to export secondary processing part to described first workpiece;

Transfer limes (30), for online transferring work piece to be connected processing stations, described transfer limes (30) is provided with the feeding area (31) being positioned at head end and the discharging area (32) being positioned at tail end, and described transfer limes (30) is provided with robot feeding position (33) and robot blowing position (34) at interlude;

Robot (40), for being transferred to described first lathe (10) by described part to be processed (60) from described robot feeding position (33), described first workpiece being transferred to described second lathe (20) and described secondary processing part being transferred to described robot blowing position (34).

2. the lathe loading and unloading system of processing based on robot according to claim 1, is characterized in that,

The output terminal of described first lathe (10) is provided with for supporting described first workpiece so that the first mechanism of clamping of described robot (40), the output terminal of described second lathe (20) be provided with for support described secondary processing part so that the second mechanism of clamping of described robot (40).

3. the lathe loading and unloading system of processing based on robot according to claim 1, is characterized in that,

Described feeding area (31) is artificial feeding area, described discharging area (32) is artificial discharging area, multiple described part to be processed (60) is positioned on described transfer limes (30) in described artificial loading district through material frame (50), with the multiple workpiece of disposable transfer on described transfer limes (30).

4. the lathe loading and unloading system of processing based on robot according to claim 1, is characterized in that,

Described robot (40) comprises mechanical manipulator and coordinates the fixture (70) in order to holding workpiece with described mechanical manipulator, the end mounting flange (41) of described mechanical manipulator, described fixture (70) comprising: transition mounting plate (72), described ring flange (41) connects cylinder mounting plate (73) through described transition mounting plate (72), described cylinder mounting plate (73) is provided with cylinder (74), the output terminal of described cylinder (74) connects the holding finger (75) being used for holding workpiece, the gas circuit of described cylinder (74) connects the guide's check valve (77) for protection of dying through right angle adapter (76), described guide's check valve (77) is parallel to described holding finger (75) to dodge interference.

5. the lathe loading and unloading system of processing based on robot according to claim 3, is characterized in that,

The bottom of described material frame (50) is provided with the pin bush (51) for locating, be provided with the back up pad for supporting workpiece (52) be flexibly connected with the sidewall of described material frame (50) in described material frame (50), described back up pad (52) is provided with multiple pilot hole for positioning workpieces (53);

Described robot feeding position (33) and described robot blowing position (34) are equipped with the steady brace (35) for coordinating to locate described material frame (50) with described pin bush (51).

6. the lathe loading and unloading system of processing based on robot according to claim 5, is characterized in that,

Described robot feeding position (33) and described robot blowing position (34) are equipped with the tail rod (36) and stopper section (37) of being convenient to described steady brace (35) and described pin bush (51) contraposition.

7. the lathe loading and unloading system of processing based on robot according to claim 6, is characterized in that,

Described robot feeding position (33) is provided with the lifting body (39) for described back up pad (52) jacking to be convenient to clamping behind described material frame (50) location to make workpiece expose.

8., according to the arbitrary described lathe loading and unloading system of processing based on robot of claim 1 to 7, it is characterized in that,

The described lathe loading and unloading system of processing based on robot also comprises the protective fence (80) for preventing personnel from entering operating area.