CN116275584A

CN116275584A - Double-station intelligent synchronous processing laser cutting machine tool

Info

Publication number: CN116275584A
Application number: CN202310357205.4A
Authority: CN
Inventors: 任建
Original assignee: Jiangsu Yuege Intelligent Equipment Co ltd
Current assignee: Jiangsu Yuege Intelligent Equipment Co ltd
Priority date: 2023-04-06
Filing date: 2023-04-06
Publication date: 2023-06-23

Abstract

The invention discloses a double-station intelligent synchronous processing laser cutting machine tool, which relates to the technical field of cutting machine tools. The top side walls of the cushion tables can be attached together, so that the top sides of the cushion tables can be in a state of inclining forwards and downwards, the quick movement in the conveying process of processed products can be facilitated, the cushion mechanisms are prevented from being shifted towards the central part in the conveying process of workpieces between gaps on the bottom sides of the side walls of the cushion mechanisms, the parts of the outer side walls of the limiting frames, which are located on the workpieces, can be pulled back by the stretching belt after being moved forwards by the cushion mechanisms, and the workpieces can be cut repeatedly.

Description

Double-station intelligent synchronous processing laser cutting machine tool

Technical Field

The invention relates to the technical field of cutting machine tool equipment, in particular to a double-station intelligent synchronous processing laser cutting machine tool.

Background

In the process of using the cutting machine tool, the workpiece moves forward gradually along with the change of the cut part on the cutting machine tool, the workpiece is in the parallel cutting machine tool, the workpiece possibly has the condition of reversing along with the machining of the cutting tool, and on the machine tool for double-station machining, machine tool backing plates on two sides can be pushed to the middle along with the vibration of machining, so that the positions of the machine tools on two sides gradually drive excessive offset angles of the workpiece, the positions of the corners required to be trimmed after the workpiece is cut can be changed at the positions of polishing back and forth, and particles caused in the continuous operation process can be mixed between the side walls of the workpiece under the condition of untimely removal to cause scratches.

Disclosure of Invention

The invention aims at: the invention provides a double-station intelligent synchronous processing laser cutting machine tool, which aims to solve the problem that a workpiece is possibly cut, pushed and moved unevenly in the processing process of the cutting machine tool.

The invention adopts the following technical scheme for realizing the purposes:

the utility model provides a duplex position intelligence synchronous processing laser cutting machine tool, includes backing plate mechanism, backing plate mechanism's bottom side through-connection has supporting mechanism, backing plate mechanism's rear end top side is provided with cutting mechanism, through-connection has slide mechanism between cutting mechanism's the top side, backing plate mechanism's top side middle part through-connection has the slide bar, slide bar's top side middle part through-connection has tensile mechanism, through-connection has traction mechanism between tensile mechanism's the top inboard, traction mechanism's bottom through-connection has the fan board, traction mechanism's top side through-connection has the body frame.

Further, the backing plate mechanism comprises a backing plate, a folding plate, a clamping table and a clamping plate, wherein the bottom side of the backing plate is connected with the top side of the supporting mechanism in a penetrating manner, the top side of the clamping table is connected with the bottom side of the sliding rod in a penetrating manner, and the top end of the backing plate is overlapped and close to each other forwards in the process that the top end of the backing plate is driven to push forwards by the side wall of the sliding rod.

Further, the bottom side of the folding plate is connected between the side wall cracks of the pad table in a penetrating manner and extends to the front end of the top of the pad table, the bottom side of the clamp table is connected to the top side of the pad table in a penetrating manner, the side wall of the clamping plate is connected in an inner interlayer of the pad table in a penetrating manner, the belt extending from the bottom end of the folding plate is connected with the inner end opposite to the clamping plate, the side wall of the pad table presses the top side of the pad table downwards along the front end, and the side wall of the pad table is pushed to the side wall of the clamping plate.

Further, the supporting mechanism comprises a base, a movable plate, a telescopic frame, a drafting plate and a separation frame, wherein the top ends of the base, the movable plate, the telescopic frame and the drafting plate are connected with the bottom side of the backing plate mechanism in a penetrating manner, the top ends of the telescopic frame are connected with the gaps of the side walls of the backing plate mechanism in a penetrating manner, the bottom side of the backing plate is pressed forwards against the top side of the base, the side walls of the base are extruded, and the telescopic frame is pushed out towards the side ends.

Further, the side wall of the movable plate is connected with the side wall of the base in a penetrating manner, the inner end of the telescopic frame is connected with the side wall of the base in a penetrating manner, the inner end of the separation frame is connected with the outer side of the telescopic frame in a penetrating manner, the side wall of the drafting plate is inserted into the side wall crack of the telescopic frame, the side wall of the telescopic frame can be pushed out of the side wall of the separation frame to the outer end, and the top end of the separation frame can be pushed to the side end along the side wall crack of the clamping table.

Further, the cutting mechanism comprises a laser probe, a butt joint strip and a limiting frame, wherein the front end of the laser probe is connected with the top side of the rear end of the butt joint strip in a penetrating mode, the inner side of the limiting frame is connected with the outer side of the laser probe in a penetrating mode, and the side wall of a workpiece can be dragged to cut at the laser probe along with forward sliding of the backing plate mechanism.

Further, the sliding mechanism comprises a sliding plate and a stretching belt, the side end of the stretching belt is connected between the side ends of the sliding plate in a penetrating mode, the side end of the sliding plate is connected between the side walls of the cutting mechanism in a penetrating mode, and the part, located on the outer side wall of the limiting frame, of the workpiece can be pulled back by the stretching belt after being moved forwards by the backing plate mechanism.

Further, the stretching mechanism comprises a plate component, a traction bridge and a connecting strip, wherein the side wall of the traction bridge is in penetrating connection with the inner side wall of the traction bridge, the side end of the connecting strip is in penetrating connection with the middle part of the side wall of the traction bridge, the plate component, the traction bridge and the bottom end of the connecting strip are in penetrating connection with the middle part of the top side of the sliding rod, the side end of the plate component pulls the traction bridge to the side edge, and the side end of the stretching connecting strip of the traction bridge pulls the side end of the traction bridge.

Further, the traction mechanism comprises an outer frame, a support and a cross rod, the bottom ends of the outer frame and the support are connected with the top ends of the fan plates in a penetrating mode, the side ends of the outer frame, the support and the cross rod are connected with the top ends of the side walls of the stretching mechanism in a penetrating mode, and the side ends of the stretching connecting strips of the traction bridge can move the side ends of the support leftwards and rightwards.

Further, the top end of the support is connected with the inner side of the outer frame in a penetrating way, the front end and the rear end of the cross rod are connected with the inner side of the support in a penetrating way, the front end and the rear end of the traction mechanism can drive the side wall of the fan plate to sweep back and forth when being stretched, and particles cut by the bottom side workpiece can be removed.

The beneficial effects of the invention are as follows:

according to the invention, the side walls of the cushion table are pushed to the side walls of the clamping plates, and in the process that the top ends of the cushion table are driven by the side walls of the sliding rods to push forwards, the side walls of the top ends of the cushion table are overlapped forwards and close, and the top side walls of the cushion table can be attached together, so that the top side of the cushion table is inclined forwards and downwards, and the quick movement in the process of conveying processed products can be facilitated.

According to the invention, the bottom side of the cushion table presses the top side of the base forwards, the side wall of the base is extruded, the telescopic frame is pushed out towards the side end, the side wall of the telescopic frame can be pushed out towards the outer end, the top end of the telescopic frame can be pushed towards the side end along the gap between the side walls of the clamping table, and the cushion mechanism can be prevented from shifting towards the center part in the process of conveying a workpiece between the bottom side gaps of the side walls of the cushion mechanism.

According to the invention, along with the forward sliding of the backing plate mechanism, the side wall of the workpiece can be dragged to cut at the laser probe, and in the process that the workpiece is driven by the backing plate mechanism to move forward, the part of the workpiece, which is positioned on the outer side wall of the limiting frame, can be pulled back by the stretching belt after being moved forward by the backing plate mechanism, so that the workpiece can be repeatedly cut, and the position of the workpiece moving back and forth can be ensured to be smooth.

The side end of the plate component pulls the traction bridge to the side, the side end of the traction bridge stretches the side end of the connecting strip, the side end of the bracket can be moved to the left and right, the front end and the rear end of the traction mechanism are driven because the side wall of the slide rod is also moved in the front end and the rear end, the side wall of the fan plate can be driven to sweep back and forth when the front end and the rear end of the traction mechanism stretch, and particles cut by a bottom side workpiece can be removed.

Drawings

FIG. 1 is a schematic diagram of the overall structural connection of the present invention;

FIG. 2 is a schematic top view of the internal structural connection of the shim plate mechanism of the present invention;

FIG. 3 is a schematic front view of the internal related structural connections of the support mechanism of the present invention;

FIG. 4 is a schematic illustration of the structural connection between the laser probe and the spacing frame of the present invention;

FIG. 5 is a top schematic view of the structural connection between the slide mechanism and the conformable frame of the present invention;

FIG. 6 is a right side schematic view of the connection of the internal related structures of the stretching mechanism of the present invention;

fig. 7 is a right side schematic view of the internal related structural connections of the traction mechanism of the present invention.

Reference numerals: 1. a backing plate mechanism; 101. a pad table; 102. a folding plate; 103. a clamping table; 104. a clamping plate; 2. a support mechanism; 201. a base; 202. a movable plate; 203. a telescopic frame; 204. a drafting plate; 205. a partition frame; 3. a cutting mechanism; 301. a laser probe; 302. butt joint strips; 303. a limiting frame; 4. a sliding mechanism; 401. a slide plate; 402. stretching the belt; 5. a slide bar; 6. a stretching mechanism; 601. a plate assembly; 602. a traction bridge; 603. a connecting strip; 7. a body frame; 8. a traction mechanism; 801. an outer frame; 802. a bracket; 803. a cross bar; 9. a fan plate.

Description of the embodiments

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-7, a double-station intelligent synchronous processing laser cutting machine tool comprises a backing plate mechanism 1, wherein a supporting mechanism 2 is connected with the bottom side of the backing plate mechanism 1 in a penetrating manner, a cutting mechanism 3 is arranged on the top side of the rear end of the backing plate mechanism 1, a sliding mechanism 4 is connected with the top side of the cutting mechanism 3 in a penetrating manner, a sliding rod 5 is connected with the middle part of the top side of the backing plate mechanism 1 in a penetrating manner, a stretching mechanism 6 is connected with the middle part of the top side of the sliding rod 5 in a penetrating manner, a traction mechanism 8 is connected with the inner side of the top end of the stretching mechanism 6 in a penetrating manner, a fan plate 9 is connected with the bottom end of the traction mechanism 8 in a penetrating manner, and a body frame 7 is connected with the top side of the traction mechanism 8 in a penetrating manner.

As shown in fig. 1-2, in some embodiments, the pad mechanism 1 includes a pad 101, a folding plate 102, a clamping table 103 and a clamping plate 104, the bottom side of the pad 101 is connected to the top side of the supporting mechanism 2 in a penetrating manner, the top side of the clamping table 103 is connected to the bottom side of the sliding rod 5 in a penetrating manner, the bottom side of the folding plate 102 is connected between side wall seams of the pad 101 and extends to the top front end of the pad 101, the bottom side of the clamping table 103 is connected to the top side of the pad 101 in a penetrating manner, the side wall of the clamping plate 104 is connected to the inner interlayer of the pad 101 in a penetrating manner, the belt extending from the bottom end of the folding plate 102 is connected with the opposite inner end of the clamping plate 104, a product is placed on the top side wall of the sliding rod 5, a stretching mechanism 6 is arranged in the middle of the side wall of the sliding rod 5, the sliding rod 5 is pulled to the front end, the bottom side of the sliding rod 5 slides forwards to press the top side of the pad mechanism 1, the side wall of the pad 101 presses down the top side of the pad 101 along the front end, the side wall of the pad 101 pushes the top side of the clamping plate 104, the top side of the pad 104 is pushed by the pad 101, the top side of the pad 101 is pushed by the pad side of the pad 101 is pushed forward, and the pad 101 is pushed forward in a forward, and the product side is pushed by the pad 101 in a forward direction, and the pad side is pushed forward in a front side between the side and can move side of the pad 101;

as shown in fig. 1 and 3, in some embodiments, the support mechanism 2 includes a base 201, a movable plate 202, a telescopic frame 203, a drawing plate 204 and a spacer 205, wherein the top ends of the base 201, the movable plate 202, the telescopic frame 203 and the drawing plate 204 are connected to the bottom side of the base 201 in a penetrating manner, the top ends of the telescopic frame 203 are connected between the side wall gaps of the base 1, the side wall of the movable plate 202 is connected to the side wall of the base 201 in a penetrating manner, the inner end of the telescopic frame 203 is connected to the side wall of the base 201 in a penetrating manner, the inner end of the spacer 205 is connected to the outer side of the telescopic frame 203 in a penetrating manner, the side wall of the drawing plate 204 is inserted into the side wall gap of the telescopic frame 203, and the top side wall of the spacer 204 is inserted into the side wall gap of the spacer 1 in a penetrating manner, and as the bottom side wall of the base 1 is pushed forward by the side wall of the slide bar 5, the bottom side wall of the base 1 is pushed forward by the side wall of the support mechanism 2, the bottom side wall of the base 201 is pushed forward by the bottom side of the base 201, the side wall of the base 201 is pushed out of the telescopic frame 203 toward the side end, the side wall of the spacer 205 can be pushed out of the side wall of the spacer 205 toward the outer side wall along the side wall gap of the side wall 103, the side wall of the side gap of the spacer 205 can push the side wall of the spacer 205 toward the side wall 1, and the side gap can be prevented from displacing toward the center in the bottom side of the bottom side gap of the bottom side of the mechanism, and displacing position between the side 1;

as shown in fig. 1, 4 and 5, in some embodiments, the cutting mechanism 3 includes a laser probe 301, a butt joint strip 302 and a limiting frame 303, the front end of the laser probe 301 is connected to the top side of the rear end of the butt joint strip 302 in a penetrating manner, the inner side of the limiting frame 303 is connected to the outer side of the laser probe 301 in a penetrating manner, the sliding mechanism 4 includes a sliding plate 401 and a stretching belt 402, the side end of the stretching belt 402 is connected between the side ends of the sliding plate 401 in a penetrating manner, the side ends of the sliding plate 401 are connected between the side walls of the cutting mechanism 3, when a workpiece is located at the top side position of the backing plate mechanism 1, the side walls of the workpiece can be clamped by the inner side of the limiting frame 303, and along with the forward sliding of the backing plate mechanism 1, the side walls of the workpiece can be dragged to be cut at the laser probe 301, and in the process that the workpiece is driven to move forward by the backing plate mechanism 1, the part of the outer side walls of the limiting frame 303 can be pulled back by the stretching belt 402, and the workpiece can be repeatedly cut;

as shown in fig. 1 and 6, in some embodiments, the stretching mechanism 6 includes a plate assembly 601, a traction bridge 602 and a connecting bar 603, wherein the side wall of the traction bridge 602 is connected with the inner side wall of the traction bridge 602 in a penetrating manner, the side end of the connecting bar 603 is connected with the middle part of the side wall of the traction bridge 602 in a penetrating manner, and the bottom ends of the plate assembly 601, the traction bridge 602 and the connecting bar 603 are connected with the middle part of the top side of the sliding rod 5 in a penetrating manner;

as shown in fig. 1 and 7, in some embodiments, the traction mechanism 8 includes an outer frame 801, a bracket 802 and a cross bar 803, the bottom ends of the outer frame 801 and the bracket 802 are connected to the top end of the fan plate 9 in a penetrating manner, the side ends of the outer frame 801, the bracket 802 and the cross bar 803 are all connected to the top ends of the side walls of the stretching mechanism 6 in a penetrating manner, the top ends of the bracket 802 are connected to the inner side of the outer frame 801 in a penetrating manner, the front ends and the rear ends of the cross bar 803 are connected to the inner side of the bracket 802 in a penetrating manner, when the side walls of the slide bar 5 are inlaid and slid, the front ends and the rear ends of the side walls of the slide bar 5 are separated, the front end of the plate assembly 601 can be pulled forward, the side ends of the plate assembly 601 can be pulled to the side edges of the traction bridge 602, the side ends of the stretching connecting bars 603 of the traction bridge 602 can be pulled to move the side ends of the bracket 802 to the left and right, and the front ends and the rear ends of the traction mechanism 8 can be driven, when the front ends and rear ends of the traction mechanism 8 are stretched, the side walls of the fan plate 9 can be driven to sweep back and particles cut by a bottom side workpiece can be removed.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a duplex position intelligence synchronous processing laser cutting machine tool, includes backing plate mechanism (1), its characterized in that, the downside of backing plate mechanism (1) is run through and is connected with supporting mechanism (2), the rear end top side of backing plate mechanism (1) is provided with cutting mechanism (3), run through between the top side of cutting mechanism (3) is connected with slide mechanism (4), the top middle part of backing plate mechanism (1) is run through and is connected with slide bar (5), the top middle part of slide bar (5) is run through and is connected with tensile mechanism (6), run through between the top inboard of tensile mechanism (6) is connected with traction mechanism (8), the bottom of traction mechanism (8) is run through and is connected with fan board (9), the top of traction mechanism (8) is run through and is connected with body frame (7).

2. The double-station intelligent synchronous machining laser cutting machine tool according to claim 1, wherein the backing plate mechanism (1) comprises a backing plate (101), a folding plate (102), a clamping table (103) and a clamping plate (104), the bottom side of the backing plate (101) is connected with the top side of the supporting mechanism (2) in a penetrating manner, and the top side of the clamping table (103) is connected with the bottom side part of the sliding rod (5) in a penetrating manner.

3. The dual-station intelligent synchronous machining laser cutting machine according to claim 2, wherein the bottom side of the folding plate (102) is connected between side wall slits of the pad table (101) in a penetrating manner and extends to the top front end of the pad table (101), the bottom side of the clamping table (103) is connected to the top side of the pad table (101) in a penetrating manner, the side wall of the clamping plate (104) is connected in an inner interlayer of the pad table (101) in a penetrating manner, and a belt extending from the bottom end of the folding plate (102) is connected with the inner end opposite to the clamping plate (104).

4. The double-station intelligent synchronous machining laser cutting machine tool according to claim 1, wherein the supporting mechanism (2) comprises a base (201), a movable plate (202), a telescopic frame (203), a drawing plate (204) and a separation frame (205), the top ends of the base (201), the movable plate (202), the telescopic frame (203) and the drawing plate (204) are connected to the bottom side of the backing plate mechanism (1) in a penetrating manner, and the top ends of the telescopic frame (203) are connected between side wall gaps of the backing plate mechanism (1) in a penetrating manner.

5. The double-station intelligent synchronous machining laser cutting machine tool according to claim 4, wherein the side wall of the movable plate (202) is connected in the side wall of the base (201) in a penetrating manner, the inner end of the telescopic frame (203) is connected in the side wall of the base (201) in a penetrating manner, the inner end of the separation frame (205) is connected in the outer side of the telescopic frame (203) in a penetrating manner, and the side wall of the drawing plate (204) is penetrated in a side wall crack of the telescopic frame (203).

6. The double-station intelligent synchronous processing laser cutting machine tool according to claim 1, wherein the cutting mechanism (3) comprises a laser probe (301), a butt joint strip (302) and a limiting frame (303), the front end of the laser probe (301) is connected to the top side of the rear end of the butt joint strip (302) in a penetrating manner, and the inner side of the limiting frame (303) is connected to the outer side of the laser probe (301) in a penetrating manner.

7. The double-station intelligent synchronous machining laser cutting machine tool according to claim 1, wherein the sliding mechanism (4) comprises a sliding plate (401) and a stretching belt (402), the side ends of the stretching belt (402) are connected between the side ends of the sliding plate (401) in a penetrating manner, and the side ends of the sliding plate (401) are connected between the side walls of the cutting mechanism (3) in a penetrating manner.

8. The dual-station intelligent synchronous machining laser cutting machine tool according to claim 1, wherein the stretching mechanism (6) comprises a plate component (601), a traction bridge (602) and a connecting strip (603), the side wall of the traction bridge (602) is connected in the inner side wall of the traction bridge (602) in a penetrating manner, the side end of the connecting strip (603) is connected in the middle of the side wall of the traction bridge (602) in a penetrating manner, and the bottom ends of the plate component (601), the traction bridge (602) and the connecting strip (603) are connected in the middle of the top side of the sliding rod (5) in a penetrating manner.

9. The dual-station intelligent synchronous machining laser cutting machine tool according to claim 1, wherein the traction mechanism (8) comprises an outer frame (801), a support (802) and a cross rod (803), the bottom ends of the outer frame (801) and the support (802) are connected to the top end of the fan plate (9) in a penetrating manner, and the side ends of the outer frame (801), the support (802) and the cross rod (803) are connected to the top end of the side wall of the stretching mechanism (6) in a penetrating manner.

10. The double-station intelligent synchronous machining laser cutting machine tool according to claim 1, wherein the top end of the bracket (802) is connected to the inner side of the outer frame (801) in a penetrating manner, and the front end and the rear end of the cross rod (803) are connected to the inner side of the bracket (802) in a penetrating manner.