CN213351242U - Clamp type laser cutting machine - Google Patents

Abstract

Provided is a clamp type laser cutting machine. The utility model relates to a laser cutting equipment especially relates to clamp formula laser cutting machine. The clamp type laser cutting machine is compact and reasonable in structure, simple and convenient to operate and capable of improving laser cutting machining efficiency. The utility model picks up the cut material plate by the linear driving mechanism; the vacuum chuck descends to the middle position of the cut material sheet, and then sucks and ascends to move to the upper part of the material receiving mechanism; the vacuum chuck descends, the cut sheet materials are loaded into the discharging disc, after the corresponding position of the discharging disc is filled, the material receiving motor is started, the gear is meshed with the rack, the discharging disc is driven to horizontally move on the material receiving frame, and the vacant position is matched with the position where the vacuum chuck is to discharge materials. The utility model has the characteristics of compact structure is reasonable, easy and simple to handle, promotes laser cutting machining efficiency etc.

Description

Clamp type laser cutting machine

Technical Field

The utility model relates to a laser cutting equipment especially relates to clamp formula laser cutting machine.

Background

The laser cutting machine adopts a novel high-power solid laser with pulse output. The method reaches the international advanced level on the main technical indexes such as light beam quality, photoelectric conversion efficiency, reliability, long-term use stability and the like. The device has compact structure, small occupied area and simple and convenient operation and maintenance. The pulse width and the repetition frequency of the laser and the discharge current of the flash lamp are precisely controlled by the digital single chip microcomputer to adjust the output power of the laser, and the cutting, welding and punching of the preset track are completed through a computer numerical control system.

Laser cutting machine belongs to light and several equipment as an organic whole, because laser cutting machine has more excellent performance than other cutting machines, and in the cutting machine market, laser cutting machine's demand is more and more big at present. However, in the existing laser cutting machine, after the plate is cut, a manual taking mode is adopted, so that the heat of corners is high during cutting, the plate is easy to scald, the plate needs to be manually taken after waiting for a period of time, and the plate needs to be taken from two sides due to the fact that the width of the plate is large, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a to above problem, provide a compact structure is reasonable, easy and simple to handle, promotes laser cutting machining efficiency's clamp formula laser cutting machine.

The technical scheme of the utility model is that: the laser cutting machine moves longitudinally above the workbench through a longitudinal moving mechanism; the device also comprises a material picking mechanism and a material receiving mechanism;

the material picking mechanism is arranged on the longitudinal moving mechanism;

the material picking mechanism comprises a linear driving mechanism and a vacuum chuck;

the linear driving mechanism is longitudinally moved above the workbench through the longitudinal moving mechanism;

the vacuum chuck is fixedly arranged on a piston rod of the linear driving mechanism;

the material receiving mechanism is arranged on the side part of the workbench and is positioned below the longitudinal moving mechanism;

the material receiving mechanism comprises a material receiving frame body, a material placing disc, a material receiving motor, a gear, a rack and a pair of guide rails arranged in parallel;

the pair of guide rails are horizontally arranged on the material receiving frame body at intervals;

the material placing disc is connected with the tops of the pair of guide rails in a sliding manner through a plurality of sliding blocks fixedly connected with the bottom of the material placing disc;

the rack is horizontally and fixedly arranged at the top of the material receiving frame body and is positioned between the pair of guide rails;

the material receiving motor is vertically and fixedly arranged at the top of the material placing disc;

a rotating shaft of the material receiving motor extends out of the bottom of the material placing disc and is fixedly connected with the gear;

the gear is meshed with the rack, and the material receiving motor rotates to enable the material placing disc to horizontally move on the material receiving frame body.

The material placing disc is provided with a plurality of accommodating grooves for the separated plates.

The top surface of the bottom plate of the containing groove is an inclined surface;

and a slag falling port matched with the inclined plane is arranged between the bottom plate and the first side plate.

The top of bottom plate is equipped with the fixed bracing piece that sets up of a plurality of equipartitions.

And a collecting bin matched with the slag falling opening is arranged below the slag falling opening.

The collecting bin is arranged below the slag falling port through a pair of symmetrically arranged L-shaped clamping seats;

the L-shaped clamping seat is fixedly arranged at the bottom of the bottom plate.

And a plurality of heat dissipation through holes are formed in the inner side wall of the accommodating groove.

The linear driving mechanism comprises an air cylinder, an oil cylinder or an electric push rod.

The longitudinal moving mechanism comprises a longitudinal frame body, a lead screw and a pair of longitudinal guide rails;

the longitudinal frame body is longitudinally and fixedly arranged at the top of the workbench;

the pair of longitudinal guide rails are fixedly arranged on the side parts of the longitudinal frame body in parallel;

the lead screw is horizontally and movably arranged on the longitudinal frame body, is positioned between the pair of longitudinal guide rails and is driven to rotate by a lead screw motor;

the cylinder body of the linear driving mechanism is movably connected with the lead screw through a lead screw nut;

the vacuum chuck is rotated by the lead screw to slide on the pair of longitudinal guide rails.

The device also comprises a transverse feeding mechanism;

the transverse feeding mechanism comprises a transverse frame body, a pair of transverse guide rails, a transverse motor, a transverse gear, a transverse rack, a transverse support plate and a plurality of clamps;

the transverse frame body is fixedly arranged on the workbench;

the pair of transverse guide rails are horizontally and symmetrically fixedly arranged on the side surface of the transverse frame body and face one side of the vacuum chuck;

the transverse motor is horizontally and fixedly arranged on the other side of the transverse frame body;

the transverse gear is arranged between the pair of transverse guide rails and is driven to rotate by a transverse motor;

the transverse rack is fixedly arranged on the transverse supporting plate;

the transverse gear is meshed with the transverse rack;

the transverse supporting plate is vertically arranged on the pair of transverse guide rails in a sliding mode and transversely moves on the pair of transverse guide rails through the transverse gear;

one side of the clamps is detachably and fixedly connected with the transverse supporting plate, and the other side of the clamps is provided with a clamping groove matched with the plate.

The utility model comprises a laser cutting machine arranged on a workbench, wherein the laser cutting machine moves longitudinally above the workbench through a longitudinal moving mechanism; the device also comprises a material picking mechanism and a material receiving mechanism; the material picking mechanism is arranged on the longitudinal moving mechanism; the material picking mechanism comprises a linear driving mechanism and a vacuum chuck; the linear driving mechanism longitudinally moves above the workbench through a longitudinal moving mechanism; the vacuum chuck is fixedly arranged on a piston rod of the linear driving mechanism, and the cut material plate is picked up through the linear driving mechanism; the vacuum chuck descends to the middle position of the cut material sheet, and then sucks and ascends to move to the upper part of the material receiving mechanism; the vacuum chuck descends, the cut sheet materials are loaded into the discharging disc, after the corresponding position of the discharging disc is filled, the material receiving motor is started, the gear is meshed with the rack, the discharging disc is driven to horizontally move on the material receiving frame, and the vacant position is matched with the position where the vacuum chuck is to discharge materials. The utility model has the characteristics of compact structure is reasonable, easy and simple to handle, promotes laser cutting machining efficiency etc.

Drawings

Figure 1 is a schematic structural view of the present invention,

figure 2 is an enlarged schematic view of region a of figure 1,

figure 3 is an enlarged schematic view of region B of figure 1,

FIG. 4 is a schematic view of the structure of the longitudinal moving mechanism;

figure 5 is an enlarged schematic view of region C of figure 4,

figure 6 is a schematic top view of the present invention,

fig. 7 is an enlarged structural schematic view of adjacent accommodating grooves;

in the figure, 1 is a workbench, 2 is a laser cutting machine, 3 is a longitudinal moving mechanism, 31 is a longitudinal frame body, 32 is a longitudinal guide rail,

4 is a material picking mechanism, 41 is a linear driving mechanism, 42 is a vacuum chuck,

5 is a material receiving mechanism, 51 is a material receiving frame body, 52 is a material placing disc, 521 is a containing groove, 5211 is a bottom plate, 5212 is a slag falling opening, 5213 is a supporting rod, 53 is a material receiving motor, 54 is a gear, 55 is a rack,

61 is a collecting bin, 62 is an L-shaped clamping seat,

7 is a transverse feeding mechanism, 71 is a transverse frame body, 72 is a transverse guide rail, 73 is a transverse motor, 74 is a transverse gear, 75 is a transverse rack, 76 is a transverse supporting plate, 77 is a clamp,

and 8 is a plate material.

Detailed Description

The utility model is shown in figures 1-7, and comprises a laser cutting machine 2 arranged on a workbench 1, wherein the laser cutting machine 2 moves longitudinally above the workbench 1 through a longitudinal moving mechanism 3; the device also comprises a material picking mechanism 4 and a material receiving mechanism 5;

the material picking mechanism 4 is arranged on the longitudinal moving mechanism 3;

the material picking mechanism 4 comprises a linear driving mechanism 41 and a vacuum chuck 42;

the linear driving mechanism 41 is moved longitudinally above the table 1 by the longitudinal moving mechanism 3;

the vacuum chuck 42 is fixedly arranged on a piston rod of the linear driving mechanism 41, and the cut material plate is picked up through the linear driving mechanism 41;

the material receiving mechanism 5 is arranged on the side part of the workbench 1 and is positioned below the longitudinal moving mechanism 3;

the material receiving mechanism 5 comprises a material receiving frame body 51, a material placing disc 52, a material receiving motor 53, a gear 54, a rack 55 and a pair of guide rails arranged in parallel;

the pair of guide rails are horizontally arranged on the material receiving frame body 51 at intervals;

the material placing disc 52 is connected with the tops of the pair of guide rails in a sliding manner through a plurality of sliding blocks fixedly connected with the bottom of the material placing disc;

the rack 55 is horizontally and fixedly arranged at the top of the material receiving frame body 51 and is positioned between the pair of guide rails;

the material receiving motor 53 is vertically and fixedly arranged at the top of the material placing disc 52;

the rotating shaft of the material receiving motor 53 extends out of the bottom of the material placing tray 52 and is fixedly connected with the gear 54;

the gear 54 is engaged with the rack 55, and the receiving motor 53 rotates to horizontally move the material tray 52 on the material receiving frame body 51.

The vacuum chuck 42 descends to the middle position of the cut material sheet, and then sucks, ascends and moves to the upper part of the material receiving mechanism 5; the vacuum chuck 42 descends, the cut sheet materials are loaded into the discharging tray 52, after the corresponding position of the discharging tray 52 is filled, the material receiving motor 53 is started, the gear 54 is meshed with the rack 55, the discharging tray 52 is driven to horizontally move on the material receiving rack, and the vacant position is matched with the position of the vacuum chuck 42 to be discharged.

Further preferably, the material placing disc 52 is provided with a plurality of accommodating grooves 521 for the plate materials 8, which are arranged in a separated manner.

Preferably, the top surface of the bottom plate 5211 of the accommodating groove 521 is an inclined surface;

a slag falling port 5212 matched with the inclined plane is arranged between the bottom plate 5211 and the first side plate. As shown in fig. 4, after the residue falls on the bottom plate 5211, the residue is moved to the residue drop opening 5212 by shaking caused by the reciprocating horizontal movement of the material placing tray 52.

Further preferably, a plurality of support rods 5213 uniformly distributed and fixedly arranged are arranged at the top of the bottom plate 5211. The support bar 5213 is disposed at a position close to the slag dropping hole 5212, so that the waste slag can slide off and the heat after cutting can be released.

Further, a collection bin 61 adapted to the slag falling port 5212 is arranged below the slag falling port.

Further preferably, the collecting bin 61 is arranged below the slag falling port 5212 through a pair of symmetrically arranged L-shaped clamping seats 62;

the L-shaped clamp seat 62 is fixedly disposed at the bottom of the bottom plate 5211. The collected waste slag is poured out through the L-shaped clamping seat 62 which is convenient for the extraction of the collecting bin 61.

Further preferably, a plurality of heat dissipation through holes are formed in the inner side wall of the accommodating groove 521.

Preferably, the linear driving mechanism 41 includes an air cylinder, an oil cylinder or an electric push rod.

Preferably, the longitudinal moving mechanism 3 includes a longitudinal frame 31, a lead screw and a pair of longitudinal rails 32;

the longitudinal frame body 31 is longitudinally and fixedly arranged at the top of the workbench 1;

the pair of longitudinal guide rails 32 are fixedly arranged at the side parts of the longitudinal frame body 31 in parallel;

the screw rod is horizontally and movably arranged on the longitudinal frame body 31, is positioned between the pair of longitudinal guide rails 32, and is driven to rotate by a screw rod motor; the longitudinal moving mechanism 3 in the present case is the same as the longitudinal moving mechanism 3 used in the laser cutting in the existing arrangement, which is not shown in the figure, and achieves the purpose of longitudinal moving;

the cylinder body of the linear driving mechanism 41 is movably connected with the screw rod through a screw rod nut;

the vacuum chuck 42 is rotated by the lead screw to slide on the pair of longitudinal rails 32. Laser cutting machine 2 and vacuum chuck 42 interval activity set up on the lead screw in the present case, rotate through the lead screw, synchronous horizontal migration.

Further optimizing, the device also comprises a transverse feeding mechanism 7;

the transverse feeding mechanism 7 comprises a transverse frame body 71, a pair of transverse guide rails 72, a transverse motor 73, a transverse gear 74, a transverse rack 75, a transverse support plate 76 and a plurality of clamps 77;

the transverse frame body 71 is fixedly arranged on the workbench 1;

the pair of transverse guide rails 72 are horizontally and symmetrically fixedly arranged on the side surface of the transverse frame body 71 and face one side of the vacuum chuck 42;

the transverse motor 73 is horizontally and fixedly arranged on the other side of the transverse frame body 71;

the transverse gear 74 is arranged between the pair of transverse guide rails 72 and is driven to rotate by a transverse motor 73;

the transverse rack 75 is fixedly arranged on the transverse support plate 76;

the transverse gear 74 is meshed with the transverse rack 75;

the transverse support plate 76 is vertically arranged on the pair of transverse guide rails 72 in a sliding manner, and transversely moves on the pair of transverse guide rails 72 through the transverse gear 74;

one side of the plurality of clamps 77 is detachably and fixedly connected with the transverse supporting plate 76, and the other side of the plurality of clamps is provided with a clamping groove matched with the plate 8. One side of the plate 8 is clamped in the clamping groove, and the plate 8 is driven to transversely move on the workbench 1 through the transverse movement of the clamp 77. Further optimize, the top of draw-in groove is equipped with the screw hole, and the back is gone into to the card of sheet material 8 card in the draw-in groove, further stable card of sheet material 8 in the draw-in groove through the bolt.

The disclosure of the present application also includes the following points:

(1) the drawings of the embodiments disclosed herein only relate to the structures related to the embodiments disclosed herein, and other structures can refer to general designs;

(2) in case of conflict, the embodiments and features of the embodiments disclosed in this application can be combined with each other to arrive at new embodiments;

the above embodiments are only embodiments disclosed in the present disclosure, but the scope of the disclosure is not limited thereto, and the scope of the disclosure should be determined by the scope of the claims.

Claims (10)

1. The clamp type laser cutting machine comprises a laser cutting machine arranged on a workbench, and the laser cutting machine longitudinally moves above the workbench through a longitudinal moving mechanism; the device is characterized by also comprising a material picking mechanism and a material receiving mechanism;

the material picking mechanism is arranged on the longitudinal moving mechanism;

the material picking mechanism comprises a linear driving mechanism and a vacuum chuck;

the linear driving mechanism is longitudinally moved above the workbench through the longitudinal moving mechanism;

the vacuum chuck is fixedly arranged on a piston rod of the linear driving mechanism;

the material receiving mechanism is arranged on the side part of the workbench and is positioned below the longitudinal moving mechanism;

the material receiving mechanism comprises a material receiving frame body, a material placing disc, a material receiving motor, a gear, a rack and a pair of guide rails arranged in parallel;

the pair of guide rails are horizontally arranged on the material receiving frame body at intervals;

the material placing disc is connected with the tops of the pair of guide rails in a sliding manner through a plurality of sliding blocks fixedly connected with the bottom of the material placing disc;

the rack is horizontally and fixedly arranged at the top of the material receiving frame body and is positioned between the pair of guide rails;

the material receiving motor is vertically and fixedly arranged at the top of the material placing disc;

a rotating shaft of the material receiving motor extends out of the bottom of the material placing disc and is fixedly connected with the gear;

the gear is meshed with the rack, and the material receiving motor rotates to enable the material placing disc to horizontally move on the material receiving frame body.

2. The laser cutting machine with clamp type as claimed in claim 1, wherein said material tray is provided with a plurality of receiving grooves for the separated plate material.

3. The laser cutting machine with clamp according to claim 2, wherein the top surface of the bottom plate of the receiving groove is a slope;

and a slag falling port matched with the inclined plane is arranged between the bottom plate and the first side plate.

4. The clamp type laser cutting machine according to claim 3, wherein the top of the bottom plate is provided with a plurality of support rods which are uniformly and fixedly arranged.

5. The clamp type laser cutting machine according to claim 3, wherein a collection bin adapted to the slag dropping port is arranged below the slag dropping port.

6. The clamp type laser cutting machine according to claim 5, wherein the collection bin is disposed below the slag dropping port through a pair of symmetrically disposed L-shaped clamping seats;

the L-shaped clamping seat is fixedly arranged at the bottom of the bottom plate.

7. The laser cutting machine tool as claimed in claim 3, wherein the inner wall of the receiving groove is provided with a plurality of heat dissipating through holes.

8. The clamp-on laser cutting machine according to claim 1, wherein the linear drive mechanism comprises a cylinder, an oil cylinder, or an electric push rod.

9. The clamp-type laser cutting machine according to claim 1, wherein the longitudinal moving mechanism includes a longitudinal frame, a lead screw, and a pair of longitudinal rails;

the longitudinal frame body is longitudinally and fixedly arranged at the top of the workbench;

the pair of longitudinal guide rails are fixedly arranged on the side parts of the longitudinal frame body in parallel;

the lead screw is horizontally and movably arranged on the longitudinal frame body, is positioned between the pair of longitudinal guide rails and is driven to rotate by a lead screw motor;

the cylinder body of the linear driving mechanism is movably connected with the lead screw through a lead screw nut;

the vacuum chuck is rotated by the lead screw to slide on the pair of longitudinal guide rails.

10. The clamp-type laser cutting machine according to claim 1, further comprising a lateral feed mechanism;

the transverse feeding mechanism comprises a transverse frame body, a pair of transverse guide rails, a transverse motor, a transverse gear, a transverse rack, a transverse support plate and a plurality of clamps;

the transverse frame body is fixedly arranged on the workbench;

the pair of transverse guide rails are horizontally and symmetrically fixedly arranged on the side surface of the transverse frame body and face one side of the vacuum chuck;

the transverse motor is horizontally and fixedly arranged on the other side of the transverse frame body;

the transverse gear is arranged between the pair of transverse guide rails and is driven to rotate by a transverse motor;

the transverse rack is fixedly arranged on the transverse supporting plate;

the transverse gear is meshed with the transverse rack;

the transverse supporting plate is vertically arranged on the pair of transverse guide rails in a sliding mode and transversely moves on the pair of transverse guide rails through the transverse gear;

one side of the clamps is detachably and fixedly connected with the transverse supporting plate, and the other side of the clamps is provided with a clamping groove matched with the plate.

Images