CN202655798U - Laser cutting machine - Google Patents

Abstract

The utility model discloses a laser cutting machine, which is characterized in that a conveying passage is formed between a conveying device and a conveyor belt; the bottom wall of a dust collection box of an adsorption device is of an oblique structure, the bottom wall is symmetrically provided with at least two exhaust inlets, and a dustproof cover is correspondently movably arranged above the exhaust inlets; a material to be cut is automatically conveyed through the friction force among the conveying device, the material to be cut and the conveyor belt, the feeding is free from installing a drive mechanism on a material support, so that the structure is greatly simplified, and the production cost is reduced; the conveying device compresses the material to be cut, so that the material to be cut is more stable to convey; the bottom wall is provided with two symmetrical exhaust inlets, so that the adsorption force produced by draught mechanism is more uniform and powerful, and the material to be cut can be stably adsorbed onto a worktable, and the cutting precision is improved; and the bottom wall is obliquely designed, so that dust and chips produced in the cutting process can automatically fall to the bottom of the dust collection box to be automatically collected through the oblique bottom wall and to be conveniently cleared.

Description

Laser cutting machine

Technical field

The utility model relates to the laser cutting technique field, relates in particular to a kind of laser cutting machine.

Background technology

At present, laser cutting machine is widely used in various materials are cut, laser cutting is to utilize the laser beam flying of high power density to cross material surface, in short time material is heated to several thousand to up to ten thousand degrees centigrade at the utmost point, material is melted or gasification, to melt again or gasification substance blows away from joint-cutting, reach the purpose of cutting material.The material that laser can cut is a lot, comprises the nonmetallic materials such as lucite, plank, plastics, and the metal material such as stainless steel, carbon steel, steel alloy, aluminium sheet.

Laser cutting machine generally comprises the operation frame, workbench, the first guide rail, the second guide rail and laser head, the sidewall that is formed with reject chute and described reject chute on the described operation frame is provided with air suction mechanism, described workbench is network structure and described workbench is covered on the top of described reject chute for placing material to be cut, described air suction mechanism is adsorbed in material to be cut on the described workbench, two described the first guide rail parallels are located at the both sides of described reject chute, the both sides of described the second guide rail are slidingly connected with two described the first guide rails respectively, described laser head slides and is located on described the second guide rail, by controlling described the second guide rail with respect to described the first guide rail slip and controlling described laser head and slide with respect to described the second slide rail, thereby make described laser head aim at material to be cut, then described laser head cuts the material to be cut on the described workbench according to the program command of computer.As from the foregoing, existing laser cutting machine can be finished the cutting to material automatically under the control of computer program commands, and cutting efficiency is high.

Yet, air suction mechanism in the existing laser cutting machine is located at the side-walls of reject chute, therefore air suction mechanism is even not to the suction that material to be cut produces, thereby can not be adsorbed in material to be cut stably on the described workbench, and then affect the cutting accuracy that laser head is treated cutting material, and the bottom of reject chute is planar structure, makes the dirt bits that drop in the cutting process thereon be difficult to remove; Simultaneously, on the feeding device special driving mechanism need be set, thereby be used for driving the connecting rod rotation that is wound with material material be sent into, the feeding device complex structure, and steady not in the material conveying, affect cutting accuracy.

Therefore, be necessary to provide a kind of absorption affinity evenly strong, can automatically collect the dust that cutting produces, the conveying of material to be cut is more steady, and laser cutting machine simple in structure solves the deficiencies in the prior art.

The utility model content

The purpose of this utility model is to provide a kind of absorption affinity evenly strong, can automatically collect the dust that cutting produces, and the conveying of material to be cut is more steady, and laser cutting machine simple in structure.

For achieving the above object, the technical solution of the utility model is: a kind of laser cutting machine is provided, it comprises the operation frame, the first guide rail, the second guide rail, laser head, conveyer belt, adsorbent equipment and feeding device, the front end of described operation frame is provided with the workbench of placing for material to be cut, two described the first guide rails are located at the both sides of described workbench with paralleling, the both sides of described the second guide rail are slidingly connected with two described the first guide rails respectively and are positioned on described the first guide rail, described laser head is slidingly connected on described the second guide rail, described conveyer belt is arranged at the described operation rear end of frame and corresponding with described workbench of stating, described adsorbent equipment is arranged at described workbench below, described feeding device is arranged at the rear end of described operation frame rotationally, and be positioned at the top of described conveyer belt, form transfer passage between described feeding device and the described conveyer belt, the material of described band cutting is delivered to described workbench by described transfer passage, wherein, described adsorbent equipment comprises disposal box, dust cover and air suction mechanism, described disposal box is arranged at the below of described workbench, and the diapire of described disposal box is extended to its bottom angled by its top, offer symmetrically at least two inlet scoops on the diapire of described disposal box, described dust cover correspondence can cover at the top of described inlet scoop with moving apart, described air suction mechanism is arranged on the described operation frame and corresponding to the below of described inlet scoop, described air suction mechanism is controlled the air draft of described inlet scoop, thereby material to be cut is adsorbed on the described workbench.

Preferably, described dust cover is the hollow frustum of lower ending opening, and the area at the lower ending opening place of described dust cover is greater than the area of its upper surface.

Preferably, described dust cover is the tetragonous cone table shape, and the upper surface of described dust cover is square.

Preferably, offer some openings on the sidewall of described dust cover, and described opening is along the from up to down successively increase of sidewall of described dust cover.

Preferably, the upper surface of described dust cover is provided with the handle for user's operation.

Preferably, the diapire of described disposal box is provided with some projections, and described projection forms the spacing zone with described dust cover coupling, and when described dust cover was contained in the described spacing zone, the upper surface of described dust cover was over against described inlet scoop.

Preferably, described air suction mechanism comprises guide duct and air exhauster, and an end correspondence of described guide duct is connected in the below of described inlet scoop, and the other end of described guide duct is connected with described air exhauster.

Preferably, described feeding device comprises installing rack and rotating shaft, two described installing racks are fixed in the both sides of described conveyer belt relatively symmetrically, the two ends of described rotating shaft are provided with bearing, described rotating shaft is rotationally connected with on the described installing rack by described bearing and is positioned at the top of described conveyer belt, have the gap between described rotating shaft and the described conveyer belt, the gap between described rotating shaft and the described conveyer belt forms described transfer passage.

Preferably, have the mounting groove that is recessed to form on the described installing rack, described rotating shaft is rotationally connected with in the described mounting groove by described bearing.

Preferably, described laser cutting machine also comprises stock support, described stock support comprises support bar and connecting rod, described connecting rod is articulated in the upper end of described support bar, described connecting rod is used for reeling material to be cut, described stock support is arranged at the rear side of described operation frame, and makes the material to be cut of reeling on the described connecting rod corresponding with described transfer passage.

Compared with prior art, because the utility model laser cutting machine has adsorbent equipment and feeding device, described feeding device is arranged at the top of conveyer belt rotationally, and forms transfer passage between feeding device and the conveyer belt; And adsorbent equipment comprises disposal box, dust cover and air suction mechanism, disposal box is arranged at the below of described workbench, and its diapire is incline structure, offer symmetrically at least two inlet scoops on the described diapire, described dust cover correspondence can cover at the top of described inlet scoop with moving apart, and it is outer and corresponding to the below of described inlet scoop that described air suction mechanism is arranged at described disposal box; During work, feeding device rotates, thereby utilize feeding device, material, the frictional force between the conveyer belt to be cut that material to be cut is carried automatically, after conveyer belt transfers to workbench, air suction mechanism is controlled the air draft of described inlet scoop, material to be cut is adsorbed on the described workbench, cuts again; Owing to utilize frictional force that material to be cut is carried out automatic transport, so that need not being installed on the stock support, special driving mechanism do not realize feeding, the structure of stock support is simplified greatly, thereby reduced the production cost of laser cutting machine; , and feeding device presses described material to be cut, and material to be cut is transferred more reposefully; And the setting of the inlet scoop of at least two symmetries on the described diapire, the absorption affinity that air suction mechanism is produced is more even strong, thereby material to be cut is adsorbed on the described workbench stably, improves cutting accuracy; The inclined design of described diapire so that the bottom that the dirt that produces in cutting process bits are fallen disposal box by the diapire automatic sliding that tilts is collected the dirt bits automatically, is convenient to remove.

Description of drawings

Fig. 1 is the structural representation of the utility model laser cutting machine.

Fig. 2 is the structural representation that Fig. 1 removes workbench.

Fig. 3 is the structural representation that Fig. 2 removes dust cover.

Fig. 4 is the structural representation of dust cover among Fig. 2.

Fig. 5 is the structural representation of another angle of dust cover among Fig. 2.

Fig. 6 is the structural representation of another angle of the utility model laser cutting machine.

Fig. 7 is the structural representation of Fig. 6 removed material support.

Fig. 8 is the rearview of Fig. 7.

Fig. 9 is the use state diagram of the utility model laser cutting machine.

The specific embodiment

With reference now to accompanying drawing, describe embodiment of the present utility model, similar element numbers represents similar element in the accompanying drawing.As mentioned above, the utility model provides a kind of laser cutting machine 1, and the absorption affinity that its adsorbent equipment 50 produces is more even strong, thereby material to be cut is adsorbed on the described workbench 20 reposefully, increases cutting accuracy; And the bottom that the dirt that produces in cutting process bits are fallen disposal box 51 by diapire 511 automatic slidings that tilt is collected the dirt bits automatically, is convenient to remove; And feeding device 70 can be delivered to workbench 20 more reposefully with material to be cut 70.

In conjunction with Fig. 1, shown in Figure 6, described laser cutting machine 1 comprises operation frame 10, workbench 20, the first guide rail 31, the second guide rail 32, laser head 40, adsorbent equipment 50, conveyer belt 60, feeding device 70 and stock support 80.Wherein, described workbench 20 is network structure, and the front end that workbench 20 is covered on operation frame 10 is used for placing material to be cut, be provided with two mutual the first parallel guide rails 31 in the both sides of workbench 20, the both sides of described the second guide rail 32 are slidingly connected with two described the first guide rails 31 respectively, and be positioned on the first guide rail 31, described laser head 40 slides and is located on described the second guide rail 32, therefore, laser head 40 can horizontally slip along the second guide rail 32, the second guide rail 32 can slide along the first guide rail 31 front and back, by the first guide rail 31 and 32 cooperations of the second guide rail described laser head 40 is slided above described workbench 20 all around, thereby the material to be cut on the workbench 20 is cut accordingly.Also be provided with cover 11 on the described operation frame 10, described cover 11 is covered on the top of described workbench 20 and described laser head 40 openably.50 belows that are arranged at workbench 20 of adsorbent equipment are used for material to be cut is adsorbed in workbench 20, collect simultaneously the dirt bits that produce in the cutting process.

Described conveyer belt 60 is arranged at the rear end of operation frame 10, and corresponding with described workbench 20, and material to be cut is delivered to workbench 20 by conveyer belt 60; Described feeding device 70 is arranged at the top of conveyer belt 60 rotationally, and forms the transfer passage 74 that passes through for material to be cut between feeding device 70 and the conveyer belt 60; 80 of stock supports are arranged at the rear side of operation frame 10, are wound with material to be cut on it.

In conjunction with Fig. 1-shown in Figure 3, described adsorbent equipment 50 comprises disposal box 51, dust cover 52 and air suction mechanism (not shown), and wherein, air suction mechanism comprises guide duct and air exhauster.Described disposal box 51 is arranged at the front end of operation frame 10 and is positioned at the below of workbench 20, and the diapire 511 of described disposal box 51 is incline structure.Particularly, described disposal box 51 comprises diapire 511, front side wall 512, left side wall 513 and right side wall (not shown), described diapire 511 by the top of disposal box 51 to its downward-sloping setting in bottom, left side wall 513, right side wall are arranged at respectively the left and right sides of diapire 511, front side wall 512 is arranged at the front side of diapire 511, diapire 511, front side wall 512, left side wall 513 and described right side wall surround the container cavity 514 of described disposal box 51, and workbench 20 is installed on the top of described container cavity 514.In addition, offer symmetrically at least two inlet scoop 511a on diapire 511, at least two dust covers 52 are the corresponding top that can cover at described inlet scoop 511a respectively with moving apart.In the preferred embodiment of the present utility model, offer two inlet scoop 511a on the diapire 511, two dust cover 52 correspondences are covered on the two described inlet scoop 511a.One end of described guide duct is connected respectively in the below of described inlet scoop 511a, the other end of described guide duct is connected with described air exhauster, described air exhauster is controlled the 511a air draft of described inlet scoop, thereby material to be cut is adsorbed on the described workbench 20, the design of the inlet scoop 511a of two symmetries, the absorption affinity that air exhauster is produced is more even, therefore, material to be cut can be adsorbed on the described workbench 20 reposefully, conveniently to carry out cutting operation, increase cutting accuracy.

Certainly, described inlet scoop 511a is not limited to two in the present embodiment, can also offer equably more inlet scoop 511a according to using needs, the absorption affinity that produces to increase air exhauster, and make described absorption affinity more even.

Such as Fig. 2, shown in Figure 3, also be provided with some projection 511b on the diapire 511 of described disposal box 51, described projection 511b correspondence be arranged at described inlet scoop 511a around, and the spacing zone that is complementary of formation and described dust cover 52, particularly, be provided with four described projection 511b around each inlet scoop 511a, four described projection 511b surround the square spacing zone that cooperates with the lower ending opening of described dust cover 52, described dust cover 52 is contained in the described spacing zone, to prevent that the situation of sliding from appearring in described dust cover 52, the upper surface of described dust cover 52 is over against described inlet scoop 511a.The upper surface of dust cover 52 is over against the design of described inlet scoop 511a, the dirt bits that produced when having avoided 40 pairs of described materials to be cut of described laser head to cut are fallen among the described inlet scoop 511a, and make the dirt bits fall into and fall within on the diapire 511 of described disposal box 51 from the opening 522 that is opened in described dust cover 52 sidewalls, the dirt bits that fall within on the described diapire 511 slide into the bottom of disposal box 51 for 511 times along diapire, thereby conveniently remove.

Such as Fig. 4-shown in Figure 5, described dust cover 52 is covered on the top of described inlet scoop 511a separably, the upper surface of described dust cover 52 is provided with the handle 521 for user's operation, by described handle 521, and the described dust cover 52 of the extraction that the user can be easy and convenient.Particularly, described dust cover 52 is the hollow frustum of lower ending opening, and the area of the lower surface of described dust cover 52 is greater than the area of its upper surface.In the present embodiment, described dust cover 52 is the tetragonous cone table shape, and its upper surface and lower ending opening are square, offer the opening 522 of some strips on three sidewalls of described dust cover 52, and on each sidewall, the opening 522 of offering to the lower end along the upper end of dust cover 52 increases successively, then offer cellular hole 523 on another sidewall, like this, the absorption affinity that on the one hand described air exhauster is produced is more even, and then material to be cut steadily is being adsorbed on the workbench 20, the chip that produces when making on the other hand cutting and dust can not drop interior and stop up described inlet scoop 511a into inlet scoop 511a.Certainly, dust cover 52 also can all be offered the opening 522 of strip on four sidewalls.

Certainly, the shape of described dust cover 52 is not limited to above-mentioned tetragonous cone table shape, can also be other shapes, for example can also be that upper surface and lower ending opening are circular hollow frustum or the frustum of other shape, the technology that this is well known to those skilled in the art does not know to give unnecessary details.

In conjunction with Fig. 6-shown in Figure 8, described feeding device 70 comprises installing rack 71, rotating shaft 72 and bearing 73, two described installing racks 71 are fixed on the two side of the rear end that operates frame 10 relatively symmetrically, and two installing racks 71 lay respectively at the left and right sides of described conveyer belt 60, has the mounting groove 711 that is recessed to form on the installing rack 71 downwards, preferably, described installing rack 71 is U-shaped structure; And the two ends of described rotating shaft 72 are provided with bearing 73, described rotating shaft 72 is rotationally connected with in the mounting groove 711 of described installing rack 71 by described bearing 73, and rotating shaft 72 is positioned at the top of described conveyer belt 60, have certain interval between described rotating shaft 72 and the described conveyer belt 50, the gap between described rotating shaft 72 and the described conveyer belt 50 forms the transfer passage 74 that passes through for material to be cut.Described rotating shaft 72 is connected with the driving mechanism of operation frame 10 interior installations, drives described rotating shaft 72 by this driving mechanism and rotates the technology that this is well known to those skilled in the art.

As shown in Figure 6, described stock support 80 is positioned over the rear side of described operation frame 10, is used for placing material to be cut.Particularly, described stock support 80 comprises support bar 81 and connecting rod 82, and described connecting rod 82 is articulated in the upper end of described support bar 81, and for ground, the height of described connecting rod 82 is a little more than the height of described transfer passage 74; Be wound with material to be cut 90 at connecting rod 82.Because the setting of feeding device 70 can automatically be transferred material to be cut 90, therefore, special driving mechanism need be installed on the stock support 80 realize feeding, the structure of stock support 80 is simplified greatly, and then reduced production costs.

In conjunction with Fig. 1, shown in Figure 9, the course of work of the utility model laser cutting machine 1 is described.

Before the work, stock support 80 is positioned over the rear side of operation frame 10, is wound with material to be cut 90 at its connecting rod 82, and for ground, the height of described material 90 to be cut is a little more than described transfer passage 74; During work, one end of material to be cut 90 is positioned over described transfer passage 74 places, driving described rotating shaft 72 rotates, in the process that rotating shaft 72 is rotated, can produce frictional force to material to be cut 90, thereby utilize rotating shaft 72, material 90 to be cut, the frictional force between the conveyer belt 60, material to be cut 90 also is fed forward automatically by described transfer passage 74, transferred on the workbench 20 of front end by conveyer belt 60 again and cut, material 90 to be cut drives described connecting rod 82 and rotates the continuous feeding of realization in the automatic transport process; And rotating shaft 72 on the width of material to be cut 90 with its compression, material to be cut 90 is had smooth effect, material to be cut 90 is difficult for by fold, therefore material 90 to be cut is steadily carried, and can keep entirely being transported to workbench 20, and then improve cutting accuracy; Stock support 80 only plays a supportive role to material to be cut 90, does not realize feeding and special driving mechanism need not be installed, and therefore, the structure of stock support 80 is simplified greatly, reduces production costs.

After material 90 to be cut was transported to workbench 20, air exhauster was controlled the 511a air draft of described inlet scoop, thereby material to be cut 90 is adsorbed on the described workbench 20; By the first guide rail 31 and 32 cooperations of the second guide rail described laser head 40 is slided above described workbench 20 all around, thereby the material to be cut 90 on the workbench 20 is cut accordingly.The setting of the inlet scoop 511a of at least two symmetries, the absorption affinity that air exhauster is produced is more even strong, thereby material to be cut is adsorbed on the described workbench 20 reposefully, increases cutting accuracy; And the inclined design of disposal box 51 diapires 511 so that the bottom that the dirt that produces in cutting process bits are fallen disposal box 51 by diapire 511 automatic slidings that tilt is collected the dirt bits automatically, is convenient to remove.

Because the utility model laser cutting machine 1 has adsorbent equipment 50 and feeding device 70, described feeding device 70 is arranged at the top of conveyer belt 60 rotationally, and forms transfer passage 74 between feeding device 70 and the conveyer belt 60; And adsorbent equipment 50 comprises disposal box 51, dust cover 52 and air suction mechanism, described disposal box 51 is arranged at the below of described workbench 20, and the diapire 511 of described disposal box 51 is incline structure, and offer symmetrically at least two inlet scoop 511a on the diapire 511 of described disposal box 51, described dust cover 52 correspondences can cover at the top of described inlet scoop 511a with moving apart, it is outer and corresponding to the below of described inlet scoop 511a that described air suction mechanism is arranged at described disposal box 51, during work, feeding device 70 rotates, thereby utilize feeding device 70, material 90 to be cut, frictional force between the conveyer belt 60 is carried material to be cut 90 automatically, after conveyer belt 60 transfers to workbench 20, air suction mechanism is controlled the 511a air draft of described inlet scoop, material to be cut is adsorbed on the described workbench 20, cuts again; In the conveying process, utilize frictional force that material to be cut 90 is carried out automatic transport, and feeding device 70 presses described material to be cut 90, material to be cut 90 is transferred more reposefully; And the setting of the inlet scoop 511a of at least two symmetries on disposal box 51 diapires 511, the absorption affinity that air suction mechanism is produced is more even strong, thereby material to be cut is adsorbed on the described workbench 20 stably, improves cutting accuracy; The inclined design of disposal box 51 diapires 511 so that the bottom that the dirt that produces in cutting process bits are fallen disposal box 51 by diapire 511 automatic slidings that tilt is collected the dirt bits automatically, is convenient to remove; In addition, utilize frictional force that material to be cut 90 is carried out automatic transport, make and special driving mechanism need be installed on the stock support 80 realize feeding, the structure of stock support 80 is simplified greatly, thereby reduce the production cost of laser cutting machine 1.

Above disclosed only is preferred embodiment of the present utility model, certainly can not limit with this interest field of the utility model, and the equivalent variations of therefore doing according to the utility model claim still belongs to the scope that the utility model is contained.

Claims (10)

1. laser cutting machine, comprise the operation frame, the first guide rail, the second guide rail, laser head and conveyer belt, the front end of described operation frame is provided with the workbench of placing for material to be cut, two described the first guide rails are located at the both sides of described workbench with paralleling, the both sides of described the second guide rail are slidingly connected with two described the first guide rails respectively and are positioned on described the first guide rail, described laser head is slidingly connected on described the second guide rail, described conveyer belt is arranged at the described operation rear end of frame and corresponding with described workbench of stating, it is characterized in that: also comprise adsorbent equipment and feeding device, described adsorbent equipment is arranged at described workbench below, described feeding device is arranged at the rear end of described operation frame rotationally, and be positioned at the top of described conveyer belt, form transfer passage between described feeding device and the described conveyer belt, the material of described band cutting is delivered to described workbench by described transfer passage, wherein

Described adsorbent equipment comprises disposal box, dust cover and air suction mechanism, described disposal box is arranged at the below of described workbench, and the diapire of described disposal box is extended to its bottom angled by its top, offer symmetrically at least two inlet scoops on the diapire of described disposal box, described dust cover correspondence can cover at the top of described inlet scoop with moving apart, described air suction mechanism is arranged on the described operation frame and corresponding to the below of described inlet scoop, described air suction mechanism is controlled the air draft of described inlet scoop, thereby material to be cut is adsorbed on the described workbench.

2. laser cutting machine as claimed in claim 1, it is characterized in that: described dust cover is the hollow frustum of lower ending opening, and the area at the lower ending opening place of described dust cover is greater than the area of its upper surface.

3. laser cutting machine as claimed in claim 2, it is characterized in that: described dust cover is the tetragonous cone table shape, and the upper surface of described dust cover is square.

4. laser cutting machine as claimed in claim 3 is characterized in that: offer some openings on the sidewall of described dust cover, and described opening is along the from up to down successively increase of sidewall of described dust cover.

5. laser cutting machine as claimed in claim 4 is characterized in that: the upper surface of described dust cover is provided with the handle for user's operation.

6. laser cutting machine as claimed in claim 2, it is characterized in that: the diapire of described disposal box is provided with some projections, described projection forms the spacing zone with described dust cover coupling, and when described dust cover was contained in the described spacing zone, the upper surface of described dust cover was over against described inlet scoop.

7. laser cutting machine as claimed in claim 1, it is characterized in that: described air suction mechanism comprises guide duct and air exhauster, and an end correspondence of described guide duct is connected in the below of described inlet scoop, and the other end of described guide duct is connected with described air exhauster.

8. laser cutting machine as claimed in claim 1, it is characterized in that: described feeding device comprises installing rack and rotating shaft, two described installing racks are fixed in the both sides of described conveyer belt relatively symmetrically, the two ends of described rotating shaft are provided with bearing, described rotating shaft is rotationally connected with on the described installing rack by described bearing and is positioned at the top of described conveyer belt, have the gap between described rotating shaft and the described conveyer belt, the gap between described rotating shaft and the described conveyer belt forms described transfer passage.

9. laser cutting machine as claimed in claim 8, it is characterized in that: have the mounting groove that is recessed to form on the described installing rack, described rotating shaft is rotationally connected with in the described mounting groove by described bearing.

10. laser cutting machine as claimed in claim 1, it is characterized in that: also comprise stock support, described stock support comprises support bar and connecting rod, described connecting rod is articulated in the upper end of described support bar, described connecting rod is used for reeling material to be cut, described stock support is arranged at the rear side of described operation frame, and makes the material to be cut of reeling on the described connecting rod corresponding with described transfer passage.

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