CN210967511U - Laser cutting machine for plates - Google Patents

Abstract

The utility model discloses a laser cutting machine for plates, which comprises a feeding mechanism arranged on a rack in the X direction, wherein the feeding mechanism comprises a fixed conveying component and a movable conveying component, the movable conveying component can be driven by a width-adjusting driving component arranged on the rack to move in the Y direction and movably adjust the distance between the movable conveying component and the fixed conveying component in the Y direction, the movable conveying component can form a conveying channel capable of movably adjusting the width by matching with the fixed conveying component, and the plates are clamped in the Y direction and locked in the Z direction; a positioning component is arranged between the fixed conveying component and the movable conveying component; an X-direction transmission assembly is arranged beside the feeding mechanism, a Z-direction transmission assembly is arranged on the X-direction transmission assembly, the Z-direction transmission assembly is connected with a Y-direction transmission assembly, and a laser cutting head is arranged on the Y-direction transmission assembly; the X-direction transmission assembly drives the Z-direction transmission assembly to move in the X direction, the Z-direction transmission assembly drives the Y-direction transmission assembly to move in the Z direction, and the Y-direction transmission assembly drives the laser cutting head to move in the Y direction, so that the laser cutting head cuts the plate positioned and fixed on the conveying channel.

Description

Laser cutting machine for plates

Technical Field

The utility model belongs to the technical field of laser cutting equipment technique and specifically relates to a panel laser cutting machine.

Background

With the development of economy and social progress, the application field of laser cutting is more and more extensive. The laser processing technology is a technology with high production efficiency and strong production capacity, and meanwhile, the design scheme can be modified only in the last minute without influencing the whole production process of the product; the great benefit is that the end user can control short or medium edition production without making a large number of templates, which can react faster according to the customer's needs; from the viewpoint of flexibility, the laser processing technology can process any shape which is programmed with a processing program. Along with the rapid increase of the yield and the consumption in China, laser processing equipment is rapidly popularized in China. The laser cutting machine for cutting the aluminum substrate and the PCB in the prior art has the following defects that: firstly, the existing laser cutting machine for cutting the plate adopts a laser cutting head to fix and move the plate to complete cutting or adopts a flow line mode to cut, and the plate cutting position is difficult to position due to the adoption of the mode, and a driving device for the plate is complex, the plate is difficult to move, and the equipment cost is high; secondly, the existing laser cutting machine does not consider the design of the box body for external protection, the opening of the flap door and the operation of industrial control are inconvenient, and the flap door needs a large space and a large place after being opened, so that the use is inconvenient.

Therefore, a laser cutting machine for plate materials is needed to solve the above problems, and has a novel structure, a convenient use and a small occupied area.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem be to the defect of existence among the above-mentioned prior art, provide a novel structure, convenient to use, occupy the little panel laser cutting machine of site area.

In order to solve the technical problem, the utility model adopts the following technical scheme that the plate laser cutting machine comprises a feeding mechanism arranged on a rack in the X direction, wherein the feeding mechanism comprises a fixed conveying component and a movable conveying component, the movable conveying component can be driven by a width-adjusting driving component arranged on the rack to move in the Y direction and movably adjust the Y-direction distance between the movable conveying component and the fixed conveying component, the movable conveying component can form a conveying channel capable of movably adjusting the width by matching with the fixed conveying component, and the Y-direction clamping and the Z-direction locking plate are clamped; a positioning component for positioning and fixing the plates loaded along the conveying channel in the X direction is also arranged between the fixed conveying component and the movable conveying component; an X-direction transmission assembly is arranged beside the feeding mechanism, a Z-direction transmission assembly is arranged on the X-direction transmission assembly, the Z-direction transmission assembly is connected with a Y-direction transmission assembly, and a laser cutting head is arranged on the Y-direction transmission assembly; the X-direction transmission assembly drives the Z-direction transmission assembly to move in the X direction, the Z-direction transmission assembly drives the Y-direction transmission assembly to move in the Z direction, and the Y-direction transmission assembly drives the laser cutting head to move in the Y direction, so that the laser cutting head cuts the plate positioned and fixed on the matching position of the conveying channel into single plates or cuts a dividing line on the plate.

As a further elaboration of the above technical solution:

in the technical scheme, the fixed conveying assembly and the movable conveying assembly both comprise a truss arm extending along the X direction, the truss arm is connected with the rack or the width-adjusting driving assembly through a support, a cover plate is fixedly arranged at the top end of the truss arm, one lateral side of the cover plate in the Y direction is flush with the lateral side of the truss arm in the Y direction, the other lateral side of the cover plate in the Y direction extends into the interval between the fixed conveying assembly and the movable conveying assembly in the Y direction, a plurality of guide rails extending in the X direction are fixedly arranged on the lateral wall of the truss arm in the Y direction, a plurality of Z-direction spacing spaces between the guide rails and the cover plate are set as conveying grooves for plates, the truss arm is further provided with a plurality of rolling bearings which are connected through transmission of a transmission belt and are connected with a driving device, the transmission belt is further movably embedded in the conveying grooves, the driving device is fixedly arranged on a vertical plate connected with the truss arm and vertically arranged, the driving device drives the transmission belt to move along the conveying groove, and plates placed in the transmission belt and the conveying groove are conveyed along the X direction in a matched mode.

In the technical scheme, the driving device is a driving motor, the truss arm is further provided with a plurality of ejection assemblies arranged at intervals along the X direction, each ejection assembly comprises an ejection cylinder, the ejection cylinder is arranged in the Z direction and fixedly connected with the truss arm through an L-shaped connecting seat, the ejection cylinder is further connected with an ejection head, and the ejection cylinder can drive the ejection head to jack up a plate conveyed to a matching position along a conveying channel by a transmission belt in the Z direction and cooperate with the cover plate to lock the plate in the Z direction.

In the above technical solution, the width-adjusting driving assembly includes two transmission assemblies arranged in the Y direction, each transmission assembly includes a ball screw arranged in the Y direction, the ball of the ball screw is fixedly connected with a support of a truss arm connected with the movable conveying assembly, the screw of the ball screw is connected with a supporting seat fixedly arranged on the frame through a bearing, the screw of the two ball screws is also in transmission connection through a synchronous belt transmission pair arranged in the X direction, one of the two supporting seats is provided with a first driving motor, first driving motor passes through the shaft coupling and is connected with the screw drive of the ball screw that matches, first driving motor passes through the screw of the vice transmission two ball screws of shaft coupling cooperation synchronous belt drive and rotates, matches the truss arm of transmission activity conveying component and slides along swing joint and Y to the linear guide who establishes in the frame with it, makes activity conveying component along Y to remove and activity adjustment and fixed conveying component's Y to the interval.

In the technical scheme, the positioning assembly comprises two positioning devices arranged at intervals along the X direction, the X direction interval space of the two positioning devices is set as a cutting area, the two positioning devices comprise positioning cylinders arranged along the Z direction, the positioning cylinders are fixedly arranged on the rack through convex supporting seats, the positioning cylinders are connected with a stop lever, and the positioning cylinders drive the stop lever to move along the Z direction and position the X direction side edge of the resisting plate and fix the X direction.

In the technical scheme, the X-direction transmission assembly, the Y-direction transmission assembly and the Z-direction transmission assembly are ball screw sliding table modules, and the laser cutting head, the Y-direction transmission assembly and the Z-direction transmission assembly are sequentially and fixedly arranged on a slide seat of the Y-direction transmission assembly, the Z-direction transmission assembly and the X-direction transmission assembly.

In the technical scheme, the automatic feeding device further comprises a box body, wherein the rack is arranged in the box body, and a feeding port and a discharging port are formed in the positions, opposite to the feeding mechanism, of the two X-direction sides of the box body; a first turnover door and a second turnover door are arranged on the Y-direction front side of the box body, and an industrial control assembly for controlling the laser cutting machine to work is arranged on the second turnover door; the first flap door is movably connected with the box body through a hinge and a gas spring, and can turn over in an accommodating space arranged on the box body by taking the hinge as a rotating shaft; the second turnover door is movably connected with the box body through a hinge and a hinge plate, the second turnover door is hinged with a sliding plate through a hinge, the sliding plate is connected with two sliding screw rods arranged along the X direction and can slide along the X direction of the sliding screw rods, the hinge plate is hinged relative to the box body and matched with the hinge plate of the second turnover door to hinge relative to the sliding plate and the sliding plate to slide along the sliding screw rods, and the second turnover door is pivoted and opened.

The utility model has the advantages that the laser cutting machine adopts the feeding mechanism with adjustable width to adapt to the feeding of the plates with different widths, adopts the movable conveying assembly with the feeding structure to clamp and fix the plates in the Y direction, and cooperates with the ejection assembly and the positioning assembly to carry out Z-direction locking and X-direction positioning and fixing on the plates, so that the feeding positioning is accurate and the fixing is firm; meanwhile, the utility model adopts the X-direction transmission assembly, the Z-direction transmission assembly and the Y-direction transmission assembly to transmit the laser cutting head to move along X, Y and Z directions, and the plate positioned and fixed by the feeding mechanism and the positioning assembly is cut into a single plate or a cutting line is cut on the plate, so that the laser head moving operation is easy to realize, the cutting effect is good, and the plate waste is less; furthermore, the utility model discloses set up on the box and conveniently opened and occupy the door that turns over that the area is little, it is convenient to control the industrial control subassembly.

Drawings

Fig. 1 is a perspective view of the laser cutting machine of the present invention;

FIG. 2 is a schematic view of the card-punching flap of the present invention;

FIG. 3 is another schematic view of the door of the present invention;

FIG. 4 is a schematic structural view of the removal box of the present invention;

FIG. 5 is an assembly view of the X-direction transmission assembly, the Z-direction transmission assembly, the Y-direction transmission assembly and the laser cutting head of the present invention;

fig. 6 is an assembly view of the feeding mechanism, the width-adjusting driving assembly and the positioning assembly of the present invention;

fig. 7 is an assembly view of the width-adjusting driving assembly and the movable conveying assembly of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The embodiments described by referring to the drawings are exemplary and intended to be used for explaining the present application and are not to be construed as limiting the present application. In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and thus should not be considered limiting. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise. In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate. In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly above and obliquely above the second feature, or simply meaning that the first feature is at a lesser level than the second feature.

Fig. 1-7 illustrate an embodiment of the present invention, referring to fig. 1-7, a laser cutting machine for sheet material, which includes a feeding mechanism 2 disposed on a frame 1 in the X direction, wherein the feeding mechanism 2 includes a fixed conveying component 3 and a movable conveying component 4, the movable conveying component 4 can be driven by a width-adjusting driving component 5 disposed on the frame 1 to move in the Y direction and movably adjust the distance between the movable conveying component 4 and the fixed conveying component 4 in the Y direction, and the movable conveying component 4 can form a conveying passage capable of movably adjusting the width by cooperating with the fixed conveying component 3, and the sheet material is clamped in the Y direction and locked in the Z direction; a positioning component 6 for positioning and fixing the plates loaded along the conveying path in the X direction is also arranged between the fixed conveying component 3 and the movable conveying component 4; an X-direction transmission assembly 7 is arranged beside the feeding mechanism 2, a Z-direction transmission assembly 8 is arranged on the X-direction transmission assembly 7, the Z-direction transmission assembly 8 is connected with a Y-direction transmission assembly 9, and a laser cutting head 10 is arranged on the Y-direction transmission assembly 9; when the cutting machine works, the X-direction transmission assembly 7 transmits the Z-direction transmission assembly 8 to move along the X direction, the Z-direction transmission assembly 8 transmits the Y-direction transmission assembly 9 to move along the Z direction, the Y-direction transmission assembly 9 transmits the laser cutting head 10 to move along the Y direction, the laser cutting head 10 cuts the plate positioned and fixed at the matching position of the conveying channel into single plates or cuts a cutting line on the plate, and the cutting line is a break for cutting the plate into pieces which can be output after blanking; the automatic feeding device is characterized by further comprising a box body 11, wherein the rack 1 is arranged in the box body 11, and a feeding opening 111 and a discharging opening 112 are formed in the positions, opposite to the feeding mechanism 2, of the two sides of the box body 11 in the X direction; a first flap door 12 and a second flap door 13 are arranged on the front side Y of the box body 11, and an industrial control assembly 001 for controlling the laser cutting machine to work is arranged on the second flap door 13; the first flap door 12 is movably connected with the box body 1 through a hinge 14 and a gas spring 15, and the first flap door 12 can turn over in an accommodating space 100 arranged on the box body 11 by taking the hinge 14 as a rotating shaft; the second is turned over door 13 and is then passed through hinge 14 and hinge board 16 and 1 swing joint of box, the second is turned over door 13 and still is articulated through hinge 14 and a slide 17, slide 17 and two are connected and can follow slide screw 18 along X to the slip lead screw 18 that sets up along X, the relative box 1 hinge cooperation second of hinge board 16 turns over door 13 and the relative slide 17 hinge of slide 17 slides along slide screw 18, matches the second is turned over door 13 pivot and is opened, first door 12 and the second of turning over door 13 are used in the convenient equipment that detects in the box 11 and conveniently control industrial control unit 001.

Referring to fig. 1 to 7, in this embodiment, each of the fixed conveyor assembly 3 and the movable conveyor assembly 4 includes a truss arm 31 extending along the X direction, the truss arm 31 is connected to the frame 1 or the width-adjusting drive assembly 5 through a support 32, a cover plate 33 is fixedly installed at a top end of the truss arm 31, one side edge of the cover plate 33 in the Y direction is flush with a side edge of the truss arm 31 in the Y direction, the other side edge of the cover plate 33 in the Y direction extends into a space between the fixed conveyor assembly 3 and the movable conveyor assembly 4 in the Y direction, a plurality of guide rails 34 extending in the X direction are fixedly installed on a side wall of the truss arm 31 in the Y direction, a space between the guide rails 34 and the cover plate 33 in the Z direction is set as a conveyor groove 002 for a sheet, the truss arm 31 is further provided with a plurality of rolling bearings 35, in practice, the rolling bearings 35 are installed on the truss arm 31 through bolts, the rolling bearings 35 are connected to a drive device 36 through a drive belt (not shown in the figure) and are connected to the drive device 36, the drive device 35 is fixedly connected to a drive device 35 through a drive belt (not shown in the drive device) and is fixedly installed on a drive cylinder 35, the conveyor arm 381, a drive device is fixedly installed on a conveyor head 35, a conveyor belt installed on a conveyor belt installed to drive cylinder, a conveyor belt 381, a conveyor belt 35, a conveyor belt is fixedly connected to drive device, a conveyor belt installed to drive a conveyor belt 383 to drive a conveyor belt installed on a conveyor belt installed to drive device, a conveyor belt installed to drive device, a conveyor belt installed to drive a conveyor belt installed.

Referring to fig. 1-7, in this embodiment, the width-adjusting driving assembly 5 includes two transmission assemblies 51 arranged in Y direction, each transmission assembly 51 includes a ball screw 52 arranged in Y direction, the balls of the ball screw 52 are fixedly connected to the support 32 connected to the boom 31 of the movable conveying assembly 4, the screw of the ball screw 52 is connected to a support 54 fixedly arranged on the frame 1 through a bearing 53, the screws of the two ball screws 52 are further connected to a synchronous belt transmission pair (the complete structure of the synchronous belt transmission pair is not shown in the drawings, only the synchronous wheel thereof is shown) arranged in X direction in a transmission manner, one of the two support seats 54 is provided with a first driving motor 55, the first driving motor 55 is in transmission connection with the screw of the matched ball screw 52 through a coupler 56, the first driving motor 55 is in cooperation with the synchronous belt transmission pair through the coupler 56 to drive the screws of the two ball screws 52 to rotate, the truss arm 31 of the matched transmission movable conveying component 4 slides along a linear guide rail 57 which is movably connected with the truss arm and arranged on the rack 1 in the Y direction, so that the movable conveying component 4 moves along the Y direction and movably adjusts the Y-direction distance between the movable conveying component 4 and the fixed conveying component 3; in this embodiment, the positioning assembly 6 includes two positioning devices 61 arranged at intervals along the X direction, the X direction space of the two positioning devices 61 is set as the cutting area, the two positioning devices 61 include positioning cylinders 62 arranged along the Z direction, the positioning cylinders 62 are fixed on the frame 1 through convex supporting seats 63, the positioning cylinders 62 are connected with a stop lever 63, the positioning cylinders 63 drive the stop lever 63 to move along the Z direction and position the X direction side of the plate against the side of the plate, and the X direction is fixed.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (7)

1. A laser cutting machine for plates is characterized by comprising a feeding mechanism arranged on a rack in an X direction, wherein the feeding mechanism comprises a fixed conveying component and a movable conveying component, the movable conveying component can be driven by a width-adjusting driving component arranged on the rack to move in a Y direction and movably adjust a Y-direction distance between the movable conveying component and the fixed conveying component, the movable conveying component can form a conveying channel capable of movably adjusting the width by matching with the fixed conveying component, and plates are clamped in the Y direction and locked in the Z direction; a positioning component for positioning and fixing the plates loaded along the conveying channel in the X direction is also arranged between the fixed conveying component and the movable conveying component; an X-direction transmission assembly is arranged beside the feeding mechanism, a Z-direction transmission assembly is arranged on the X-direction transmission assembly, the Z-direction transmission assembly is connected with a Y-direction transmission assembly, and a laser cutting head is arranged on the Y-direction transmission assembly; the X-direction transmission assembly drives the Z-direction transmission assembly to move in the X direction, the Z-direction transmission assembly drives the Y-direction transmission assembly to move in the Z direction, and the Y-direction transmission assembly drives the laser cutting head to move in the Y direction, so that the laser cutting head cuts the plate positioned and fixed on the matching position of the conveying channel into single plates or cuts a dividing line on the plate.

2. The laser cutting machine for plates according to claim 1, wherein the fixed conveying assembly and the movable conveying assembly each comprise a truss arm extending in the X direction, the truss arm is connected with the frame or the width-adjusting driving assembly through a support, a cover plate is fixedly arranged at the top end of the truss arm, one lateral side of the cover plate in the Y direction is flush with the lateral side of the truss arm in the Y direction, the other lateral side of the cover plate in the Y direction extends into the interval between the fixed conveying assembly and the movable conveying assembly in the Y direction, a plurality of guide rails extending in the X direction are fixedly arranged on the lateral wall of the truss arm in the Y direction, a plurality of space between the guide rails and the cover plate in the Z direction is set as a conveying groove for plates, the truss arm is further provided with a plurality of rolling bearings, the plurality of rolling bearings are in transmission connection with a driving device through a transmission belt, and the transmission belt is movably embedded in the conveying groove, the driving device is fixedly arranged on a vertical plate which is connected with the truss arm and is vertically arranged, the driving device drives the transmission belt to move along the conveying groove, and plates arranged in the transmission belt and the conveying groove are conveyed along the X direction in a matched mode.

3. The laser cutting machine for plates as claimed in claim 2, wherein the driving device is a driving motor, the truss arm is further provided with a plurality of ejection assemblies arranged at intervals along the X direction, each ejection assembly comprises an ejection cylinder, the ejection cylinder is arranged in the Z direction and fixedly connected with the truss arm through an L-shaped connecting seat, the ejection cylinder is further connected with an ejection head, and the ejection cylinder can drive the ejection head to eject the plate conveyed to a matching position along the conveying channel by the driving belt in the Z direction and cooperate with the cover plate to lock the plate in the Z direction.

4. The laser cutting machine according to claim 2, wherein the width-adjusting driving assembly comprises two transmission assemblies arranged in a Y-direction, each transmission assembly comprises a ball screw arranged in the Y-direction, a ball of the ball screw is fixedly connected with a support connected with a boom of the movable conveying assembly, a screw of the ball screw is connected with a support seat fixedly arranged on the machine frame through a bearing, the screws of the two ball screws are further connected with a synchronous belt transmission pair arranged in the X-direction in a transmission manner, one of the two support seats is provided with a first driving motor, the first driving motor is connected with a screw of a matched ball screw in a transmission manner through a shaft coupling, the first driving motor is matched with the synchronous belt transmission pair to drive the screws of the two ball screws to rotate, the boom of the matched movable conveying assembly is movably connected with the first driving motor, and slides along a linear guide rail arranged on the machine frame in the Y-direction, the movable conveying component moves along the Y direction and movably adjusts the Y-direction distance between the movable conveying component and the fixed conveying component.

5. The laser cutting machine for plates according to any one of claims 1 to 4, wherein the positioning assembly comprises two positioning devices arranged at intervals along the X direction, the X-direction space between the two positioning devices is set as a cutting area, the two positioning devices comprise positioning cylinders arranged along the Z direction, the positioning cylinders are fixedly arranged on the frame through convex supporting seats, the positioning cylinders are connected with a stop lever, and the positioning cylinders drive the stop lever to move along the Z direction and position against the X-direction side edge of the plate, so that the X-direction positioning is fixed.

6. The laser cutting machine for plates according to claim 5, wherein the X-direction transmission assembly, the Y-direction transmission assembly and the Z-direction transmission assembly are ball screw sliding table modules, and the laser cutting head, the Y-direction transmission assembly and the Z-direction transmission assembly are fixedly arranged on the slide carriages of the Y-direction transmission assembly, the Z-direction transmission assembly and the X-direction transmission assembly in sequence.

7. The laser cutting machine for the plates according to claim 6, further comprising a box body, wherein the frame is arranged in the box body, and a feeding port and a discharging port are formed in positions, opposite to the feeding mechanism, of two X-direction sides of the box body; a first turnover door and a second turnover door are arranged on the Y-direction front side of the box body, and an industrial control assembly for controlling the laser cutting machine to work is arranged on the second turnover door; the first flap door is movably connected with the box body through a hinge and a gas spring, and can turn over in an accommodating space arranged on the box body by taking the hinge as a rotating shaft; the second turnover door is movably connected with the box body through a hinge and a hinge plate, the second turnover door is hinged with a sliding plate through a hinge, the sliding plate is connected with two sliding screw rods arranged along the X direction and can slide along the X direction of the sliding screw rods, the hinge plate is hinged relative to the box body and matched with the hinge plate of the second turnover door to hinge relative to the sliding plate and the sliding plate to slide along the sliding screw rods, and the second turnover door is pivoted and opened.

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