CN203845377U - Laser cutting flexible manufacture system - Google Patents

Abstract

The utility model relates to a laser cutting flexible manufacture system in the field of plate cutting equipment. The laser cutting flexible manufacture system comprises at least two laser cutters arranged in parallel below a truss. A material store is connected to the front end of the truss. A feed guide rail is disposed below the truss. A feed trolley is disposed on the feed guide rail. An entry guide rail is disposed on the side of the material store. Two transfer guide rails are parallel to the truss. A transfer trolley is mounted on the transfer guide rails. A turntable is disposed between the entry guide rail and the transfer guide rails. Turntable guide rails are disposed on the turntable. The turntable guide rails can be connected with the entry guide rail and the transfer guide rails respectively. A feed manipulator and a discharge manipulator capable of moving along the truss are disposed on the truss. A scrap separator corresponding to the discharge manipulator in position is disposed in rear of the laser cutters. A scrap box is arranged on the side of the scrap separator. A sorting conveyor is disposed in rear of the scrap separator. A parts temporary storage box is arranged on the side of the sorting conveyor. The laser cutting flexible manufacture system is good in overall cooperativity, and production efficiency can be greatly improved.

Description

Laser beam cutting FMS flexible manufacturing system

Technical field

The utility model relates to a kind of plate cutting system of processing, particularly a kind of laser cutting system.

Background technology

Laser beam cutting is, using laser as a kind of manufacturing process, metal or nonmetal plate are carried out to cutting processing, can be in flat sheet the curve of processing linear and arbitrary shape.Efficiency and automatization level for improving laser cutting, alleviate workman's labour intensity, flexible FMS flexible manufacturing system (the Flexible Manufacture System of laser beam cutting, be called for short FMS) arise at the historic moment, it is widely used in Electric Manufacture, automobile, meter switch, textile machine, Transport Machinery, household electrical appliances manufacture, lift facility manufacture, food industry, decoration and advertisement and laser machining station etc.

In prior art, laser beam cutting FMS is mostly for separate unit laser cutting machine, and not well in conjunction with workshop situation, causes improved efficiency not obvious, and degree of automation is not high enough.Because the sheet material of laser beam cutting is mostly metal material, wherein especially take carbon sheet as main, it is failed integral body to links such as raw material warehouse-in, outbound, automatic loading/unloading, laser beam cutting main machine structure, componentselecteds and considers as a whole, cause localized production efficiency high, but the production efficiency of other positions, degree of automation are not high, based on bottleneck effect, the height of its integral production efficiency depends on the link that efficiency is the poorest, therefore, the production efficiency of existing laser cutting system needs to be further improved.

Utility model content

The purpose of this utility model is to provide a kind of laser beam cutting FMS flexible manufacturing system, can, to the warehouse-in of raw material, outbound, cutting, sorting overall arrangement, significantly enhance productivity.

The purpose of this utility model is achieved in that a kind of laser beam cutting FMS flexible manufacturing system, comprise at least two laser cutting machines that are set up in parallel, the bench board top of described laser cutting machine is provided with truss, described truss front end is connected with material storehouse, truss below is provided with two material loading guide rails that extend in material storehouse, and material loading guide rail is provided with feeding cart; Material side, storehouse is provided with two and extends to material and enter storehouse guide rail in storehouse, parallel with truss and be provided with two transhipment guide rails, on transhipment guide rail, transfer car(buggy) is installed, enter between storehouse guide rail and transhipment guide rail and be provided with turntable, turntable is provided with turntable guide rail, described turntable guide rail, to enter storehouse guide rail corresponding with transhipment guide rail, after turntable rotation, turntable guide rail can be respectively with enter storehouse guide rail and transhipment guide rail integrates with mutually; On truss, be also provided with feeding manipulator and the blanking mechanical hand that can move along truss, blanking mechanical hand is positioned at feeding manipulator rear side, be positioned at laser cutting machine rear portion and be provided with the waste material separating device corresponding with blanking mechanical hand position, waste material separating device side is provided with ash can, waste material separating device rear side is provided with sorting feedway, and sorting feedway side is provided with part buffer memory case.

During the utility model work, first make turntable guide rail and transhipment guide rail integrate with, on transfer car(buggy), place a buttress original plate, transfer car(buggy) stops after transhipment guide rail arrives on the turntable guide rail on turntable, and turntable rotates to an angle, and makes turntable guide rail and enter storehouse guide rail to integrate with, transfer car(buggy) can enter material storehouse, in material storehouse, whole buttress sheet material is placed on the shelf in material storehouse, transfer car(buggy) is got back on transhipment guide rail simultaneously, completes warehouse-in process.Feeding cart enters material storehouse along material loading guide rail, and material storehouse is taken out a buttress sheet material of appointment be put on feeding cart from shelf by cutting demand, and feeding cart transports material storehouse along material loading guide rail by sheet material, arrives material loading position, completes outbound process; Subsequently, feeding manipulator picks up a sheet material from feeding cart, be transported on each laser cutting machine workbench, laser cutting machine workbench drives sheet material to move to cutting zone and completes plate cutting, now feeding manipulator is got back to material loading position and is continued to pick up sheet material and wait for material loading, completes a feeding process; After plate cutting completes, laser cutting machine workbench shifts out cutting zone, blanking mechanical hand moves to laser cutting machine workbench top, sheet material integral body after cutting is picked up, then blanking mechanical hand moves to the position of waste material separating device, by waste material separating device, the waste material frame of micro-connection is removed and gone in ash can, complete waste material separating treatment flow process; Blanking mechanical hand takes part to sorting feedway position and part of the same race is discharged by criticizing, realize componentselected, part after sorting can be by manually piling up or being piled up by robot, the finding that has little time sorting falls into part buffer memory case, follow-up by artificial treatment, complete part blanking sorting flow process.Above-mentioned working process has taken into full account the workflows such as panel feeding, warehouse-in, outbound, material loading, cutting, sorting, all adopts automatic control mode to process, and the overall coordination of each functional device is good, can significantly enhance productivity.This device can be widely used in the cutting processing of various sheet materials.

As further improvement of the utility model, between adjacent two laser cutting machines, be provided with standby skip car.When feeding cart work can not complete in time, can material loading by standby feeding cart.

For ease of sorting sorted part, in part buffer memory case front side and rear side, be respectively equipped with pigeonholes.

For ease of cleaning cutting waste material, between adjacent two laser cutting machines, be provided with cutting dust car.

For ease of controlling and space is arranged, described in enter storehouse guide rail and the perpendicular setting of transhipment guide rail.

As further improvement of the utility model, the main frame of described part buffer memory case, ash can and laser cutting machine is positioned at the same side of truss.This scheme makes whole system operating personal be positioned at the same side, has facilitated operation.

For further enhancing productivity, on described every laser cutting machine with pallet changer.Two bench board can transposition, and when laser cutting machine carries out cutting processing on a bench board therein, another bench board can complete loading and unloading.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation.

Wherein, 1 transfer car(buggy), 2 turntables, 3 turntable guide rails, 4 feeding carts, 5 feeding manipulators, 6 transhipment guide rails, 7 truss, 8 waste material separating devices, 9 blanking mechanical hands, 10 sorting feedways, 11 pigeonholes, 12 part buffer memory casees, 13 ash cans, 14 laser cutting machines two, 15 standby skip cars, 16 cutting dust cars, 17 laser cutting machines one, 18 material loading guide rails, 19 material storehouses, 20 enter storehouse guide rail.

The specific embodiment

As shown in Figure 1, for laser beam cutting FMS flexible manufacturing system, comprise two laser cutting machines that are set up in parallel, be respectively laser cutting machine 1 and laser cutting machine 2 14, the bench board 17a of laser cutting machine one and the bench board 14a of laser cutting machine two top are provided with truss 7, truss 7 front ends are connected with material storehouse 19, and truss 7 belows are provided with two material loading guide rails 18 that extend in material storehouse 19, and material loading guide rail 18 is provided with feeding cart 4; Material 19 sides, storehouse are provided with two and extend to material and enter storehouse guide rail 20 in storehouse 19, parallel with truss 7 and be provided with two transhipment guide rails 6, on transhipment guide rail 6, transfer car(buggy) 1 is installed, enter between storehouse guide rail 20 and transhipment guide rail 6 and be provided with turntable 2, turntable 2 is provided with turntable guide rail 3, described turntable guide rail 3, enters storehouse guide rail 20 and transhipment guide rail 6 is corresponding, enters storehouse guide rail 20 and the perpendicular setting of transhipment guide rail 6, after turntable 2 half-twists, turntable guide rail 3 can be respectively with enter storehouse guide rail 20 and transhipment guide rail 6 integrates with mutually; On truss 7, be also provided with feeding manipulator 5 and the blanking mechanical hand 9 that can move along truss 7, blanking mechanical hand 9 is positioned at feeding manipulator 5 rear sides, be positioned at laser cutting machine rear portion and be provided with the waste material separating device 8 corresponding with blanking mechanical hand 9 positions, waste material separating device 8 sides are provided with ash can 13, waste material separating device 8 rear sides are provided with sorting feedway 10, and sorting feedway 10 sides are provided with part buffer memory case 12.Between adjacent two laser cutting machines, be provided with standby skip car 15.Part buffer memory case 12 front sides and rear side are respectively equipped with pigeonholes 11.Between adjacent two laser cutting machines, be provided with cutting dust car 16.The main frame of part buffer memory case 12, ash can 13 and laser cutting machine is positioned at the same side of truss 7.On described laser cutting machine with pallet changer.

During work, first make turntable guide rail 3 and transhipment guide rail 6 integrate with, on transfer car(buggy) 1, place a buttress original plate, after on the turntable guide rail 3 that transfer car(buggy) 1 arrives on turntable 2 along transhipment guide rail 6, stop, turntable 2 half-twist degree, make turntable guide rail 3 and enter storehouse guide rail 20 to integrate with, transfer car(buggy) 1 can enter material storehouse 19, on the interior shelf that whole buttress sheet material are placed in material storehouse 19 in material storehouse 19, transfer car(buggy) 1 is got back on transhipment guide rail 6 simultaneously, completes warehouse-in process.Feeding cart 4 enters material storehouse 19 along material loading guide rail 18, and material storehouse 19 is taken out a buttress sheet material of appointment be put on feeding cart 4 from shelf by cutting demand, and feeding cart 4 transports material storehouse 19 along material loading guide rail 18 by sheet material, arrives material loading position, completes outbound process; Subsequently, feeding manipulator 5 picks up a sheet material from feeding cart 4, be transported on the bench board 17a of laser cutting machine one or the bench board 14a of laser cutting machine two, the bench board 17a of laser cutting machine one or the bench board 14a of laser cutting machine two drive sheet material to move to cutting zone and complete plate cutting, during plate cutting, keep there is micro-connection between part and waste material frame, all the other waste materials that directly cut down fall into cutting dust car 16; Feeding manipulator 5 is got back to material loading position and is continued to pick up a sheet material wait material loading, completes a feeding process.After plate cutting completes, laser cutting machine workbench shifts out cutting zone, blanking mechanical hand 9 moves to laser cutting machine workbench top, sheet material integral body after cutting is picked up, then blanking mechanical hand 9 moves to the position of waste material separating device 8, by waste material separating device 8, the waste material frame of micro-connection is removed and gone in ash can 13, complete waste material separating treatment flow process; Blanking mechanical hand 9 takes part to sorting feedway 10 positions and part of the same race is discharged by criticizing, realize componentselected, part after sorting can be by manually piling up or being piled up by robot, the finding that has little time sorting falls into part buffer memory case 12, follow-up by artificial treatment, complete part blanking sorting flow process.

The utility model is not limited to above-described embodiment; on the basis of the disclosed technical scheme of the utility model; those skilled in the art is according to disclosed technology contents; do not need performing creative labour just can make some replacements and distortion to some technical characterictics wherein, these replacements and distortion are all in protection domain of the present utility model.For example laser cutting machine can arrange more than two; The angle of entering between storehouse guide rail and transhipment guide rail is also not limited to 90 °, as long as meet both, can transport docking.

Claims (7)

1. a laser beam cutting FMS flexible manufacturing system, comprise at least two laser cutting machines that are set up in parallel, it is characterized in that: the bench board top of described laser cutting machine is provided with truss, described truss front end is connected with material storehouse, truss below is provided with two material loading guide rails that extend in material storehouse, and material loading guide rail is provided with feeding cart; Material side, storehouse is provided with two and extends to material and enter storehouse guide rail in storehouse, parallel with truss and be provided with two transhipment guide rails, on transhipment guide rail, transfer car(buggy) is installed, enter between storehouse guide rail and transhipment guide rail and be provided with turntable, turntable is provided with turntable guide rail, described turntable guide rail, to enter storehouse guide rail corresponding with transhipment guide rail, after turntable rotation, turntable guide rail can be respectively with enter storehouse guide rail and transhipment guide rail integrates with mutually; On truss, be also provided with feeding manipulator and the blanking mechanical hand that can move along truss, blanking mechanical hand is positioned at feeding manipulator rear side, be positioned at laser cutting machine rear portion and be provided with the waste material separating device corresponding with blanking mechanical hand position, waste material separating device side is provided with ash can, waste material separating device rear side is provided with sorting feedway, and sorting feedway side is provided with part buffer memory case.

2. laser beam cutting FMS flexible manufacturing system according to claim 1, is characterized in that: between adjacent two laser cutting machines, be provided with standby skip car.

3. laser beam cutting FMS flexible manufacturing system according to claim 1 and 2, is characterized in that: part buffer memory case front side and rear side are respectively equipped with pigeonholes.

4. laser beam cutting FMS flexible manufacturing system according to claim 1 and 2, is characterized in that: between adjacent two laser cutting machines, be provided with cutting dust car.

5. laser beam cutting FMS flexible manufacturing system according to claim 1 and 2, is characterized in that: described in enter storehouse guide rail and the perpendicular setting of transhipment guide rail.

6. laser beam cutting FMS flexible manufacturing system according to claim 1 and 2, is characterized in that: the main frame of described part buffer memory case, ash can and laser cutting machine is positioned at the same side of truss.

7. laser beam cutting FMS flexible manufacturing system according to claim 1 and 2, is characterized in that: on described laser cutting machine with pallet changer.