CN115041848A - Intelligent conveying system for laser cutting raw materials and using method thereof - Google Patents

Abstract

The invention provides an intelligent conveying system for laser cutting raw materials and a using method thereof, and relates to the technical field of laser cutting, conveying and conveying. The system comprises a moving workbench, a transportation channel, a raw material warehouse, laser cutting equipment and a sorting center; the conveying channel comprises a feeding channel, a discharging channel and a sorting channel and is used for conveying a plurality of the traveling working tables among the raw material warehouse, the laser cutting equipment and the sorting center. Extracting a material to be cut from a raw material library and placing the material to be cut on a moving workbench; conveying the moving workbench with the material to be cut to laser cutting equipment in order to perform laser cutting; and after the processing is finished, the workbench is moved and conveyed to a sorting center for sorting. The invention integrates the workbench with the bearing and supporting functions and the conveying device with the conveying function into the traveling workbench, so that the traveling workbench can be used as a workbench for laser cutting and can also be used as a conveying system for conveying raw materials, the structure is compact, and the site utilization rate is high.

Description

Intelligent conveying system for laser cutting raw materials and using method thereof

Technical Field

The invention relates to the technical field of laser cutting, conveying and conveying, in particular to an intelligent conveying system for laser cutting raw materials and a using method thereof.

Background

The laser cutting machine focuses the laser emitted from the laser into high power density laser beam via the light path system, and the laser beam emits great amount of energy to reach the melting point or boiling point of the workpiece when irradiating the surface of the workpiece, so that the workpiece is fast melted, gasified, ablated or burnt, and the molten or gasified metal is blown away with the help of high pressure gas coaxial with the laser beam to reach the aim of cutting or carving. The laser cutting machine has the advantages of high precision, quick cutting, no limitation on cutting patterns, automatic typesetting, material saving, high cutting precision, quick cutting speed, smooth cutting surface, low processing cost, difficult damage to workpieces, especially reduction of the cost of subsequent process treatment, and obvious advantages in mass production, so the laser cutting machine is approved and applied by more and more industries and enterprises in recent years and has the tendency of gradually improving or replacing the traditional metal cutting process equipment.

The Chinese patent with publication number CN112192049A discloses a laser cutting production line for thick plates, which comprises a three-dimensional plate warehouse, a front discharging trolley, a laser processing material area and a roller sorting table which are sequentially arranged from front to back, wherein one end of the laser processing material area is connected with a laser cutting machine; the laser processing material area comprises a cutting workbench which can move towards the laser cutting machine; the front discharging trolley, the laser processing material area and the roller sorting table are externally provided with a rack, two mutually symmetrical upper guide rails are longitudinally arranged at the top of the rack, a moving beam is arranged between the two upper guide rails, a Z rod is arranged on the front side of the moving beam, and a feeding and discharging robot is arranged at the bottom of the Z rod.

In the existing laser cutting workshop, laser cutting is usually carried out on a fixed workbench, so that transportation, feeding and blanking of raw materials are inconvenient, matching use with other equipment in the workshop is also not facilitated, and the raw materials and cut plates are inconvenient to turn over; the floor space of the equipment is large, and the utilization rate is low.

Disclosure of Invention

In view of the defects in the prior art, the invention aims to provide an intelligent conveying system for laser cutting raw materials. The purpose of the invention is realized by the following technical scheme: an intelligent conveying system for laser cutting raw materials comprises a plurality of traveling workbenches, a plurality of conveying channels, a raw material warehouse, laser cutting equipment and a sorting center; the moving workbench comprises a workbench body;

the plurality of traveling working tables are used for placing raw materials on the upper surfaces of the traveling working tables and are used as laser cutting working tables in laser cutting equipment; and the plurality of conveying channels are used for conveying the plurality of traveling working tables among the raw material warehouse, the laser cutting equipment and the sorting center.

According to the technical scheme, the system extracts the material to be cut from the raw material library and places the material on the moving workbench; conveying the moving workbench with the material to be cut to laser cutting equipment in order to perform laser cutting; and after the processing is finished, the workbench is moved and conveyed to a sorting center for sorting. The workbench with the bearing and supporting functions and the conveying device with the conveying function are integrated into the moving workbench, so that the moving workbench can be formed into a laser cutting workbench and can be used as a conveying system for conveying raw materials at the same time, the structure is compact, and the site utilization rate is high.

Preferably, the table body comprises a rectangular frame, a support rod arranged along the length direction of the frame and a plurality of support bars arranged along the width direction of the frame; the supporting bars are fixedly arranged above the side frame and the supporting bars and are uniformly distributed along the length direction of the side frame.

Through above-mentioned technical scheme, the stage body provides the workstation that has the bearing support effect, can become laser cutting's workstation.

Preferably, the moving workbench further comprises a limiting device; the limiting device is used for enabling the moving workbench to be in a stable state in the laser cutting equipment.

Preferably, the limiting device comprises a plurality of positioning columns and a plurality of positioning grooves; the positioning columns are positioned on two sides far away from each other in the length direction of the frame and extend along the length direction of the frame; the positioning grooves are positioned at two sides of the width direction of the frame;

the laser cutting equipment comprises a shell, a laser cutting assembly, a fixing frame and a lifting frame, wherein the laser cutting assembly, the fixing frame and the lifting frame are positioned in the shell, and the fixing frame and the lifting frame are positioned below the laser cutting assembly; two opposite inner sides in the width direction of the shell are provided with positioning clamps matched with the positioning grooves, and one end or two ends of the lifting frame are provided with positioning clamping grooves matched with the positioning columns.

Preferably, the height of the upper surface of the fixing frame is a first height, and the lifting height of the lifting frame comprises a first height, a second height and a third height; the distances between the first height, the second height and the third height and the laser cutting assembly are sequentially decreased; and a feeding port and a discharging port are respectively arranged at the two ends of the shell along the length direction of the fixing frame.

Preferably, the height of the positioning clamp and the positioning clamping groove is a third height, and the positioning clamp and the positioning clamping groove can move in a telescopic mode towards a direction close to or far away from the positioning groove.

Preferably, the plurality of conveying channels comprise a feeding channel, a discharging channel and a sorting channel;

the feeding channel comprises a pre-feeding device, a feeding track and a moving feeding frame, and the discharging channel comprises a discharging track and a moving discharging frame; the feeding track and the blanking track are arranged along the width direction of the laser cutting equipment, the moving feeding frame moves in a translation mode between the feeding ports of the laser cutting equipment along the arrangement direction of the feeding track, and the moving blanking frame moves in a translation mode between the discharging ports of the laser cutting equipment along the arrangement direction of the blanking track; the heights of the pre-feeding device, the moving feeding frame, the moving discharging frame and the sorting channel comprise a first height and/or a second height.

Preferably, the traveling table further comprises a positioning device; the positioning device is used for determining the position of the corresponding traveling workbench in the system.

Preferably, the positioning device comprises a gps positioner and a signal transmitter.

According to the technical scheme, whether the laser cutting equipment on the path from the moving workbench to the laser cutting equipment is performing laser cutting operation or not is judged; the transport is done through the first height if there is a laser cutting apparatus that is performing the laser cutting operation, otherwise the transport may be done through either the first height or the second height.

After the moving workbench moves into the corresponding laser cutting equipment, the moving workbench ascends to a third height through the lifting frame, and is matched with the positioning groove and the positioning clamping groove through the positioning fixture, so that the moving workbench is in a stable state in the laser cutting equipment and performs laser cutting operation.

After the laser cutting is finished, judging whether the laser cutting equipment on the path from the laser cutting equipment to the sorting center of the traveling workbench is performing laser cutting operation or not; if the laser cutting equipment which is performing laser cutting operation exists, the laser cutting equipment is transported through the first height, otherwise, the laser cutting equipment can be transported through the first height or the second height, and the parts are sorted after reaching the sorting center.

The second purpose of the invention is to provide a using method of the intelligent conveying system for laser cutting raw materials, and the second purpose of the invention is realized by the following technical scheme: the use method of the intelligent conveying system for the laser cutting raw materials comprises the following steps:

A. extracting a material to be cut from a raw material library and placing the material to be cut on a moving workbench;

B. sequentially conveying the moving workbench with the material to be cut to laser cutting equipment for laser cutting;

C. and after the processing is finished, the workbench is moved and conveyed to a sorting center for sorting.

Compared with the prior art, the invention has the following beneficial effects:

(1) the intelligent conveying system for laser cutting raw materials is provided with a traveling workbench, a conveying channel, a raw material warehouse, laser cutting equipment and a sorting center; the conveying channel comprises a feeding channel, a discharging channel and a sorting channel and is used for conveying the plurality of traveling working tables among the raw material warehouse, the laser cutting equipment and the sorting center; the workbench with the bearing and supporting functions and the conveying device with the conveying function are integrated into the moving workbench, so that the moving workbench can be a laser cutting workbench and can also be used as a conveying system for conveying raw materials, the structure is compact, and the site utilization rate is high;

(2) the invention relates to a traveling workbench which is provided with a workbench body, a limiting device which enables the traveling workbench to be in a stable state in laser cutting equipment, and a positioning device which determines the position of the corresponding traveling workbench in a system; the laser cutting equipment with triple function height is matched to realize the automatic control of the whole process from the laser cutting production plan to the final completion;

(3) the invention relates to a using method of an intelligent conveying system for laser cutting raw materials, which comprises the steps of extracting materials to be cut from a raw material library and placing the materials on a moving workbench; conveying the moving workbench with the material to be cut to laser cutting equipment in order to perform laser cutting; after the processing is finished, the moving workbench is conveyed to a sorting center for sorting, and the method is compact in system structure and high in site utilization rate.

Drawings

Fig. 1 is a schematic perspective view of an intelligent conveying system for laser-cut raw materials in embodiment 1 of the present invention;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is an enlarged schematic view of portion B of FIG. 1;

FIG. 4 is a flow chart of a method for using the intelligent conveying system for laser cutting raw materials in embodiment 2 of the present invention;

reference numerals: 1. moving the workbench; 11. a table body; 111. a frame; 112. a support bar; 113. a supporting strip; 121. a positioning column; 122. positioning a groove; 2. a stock repository; 3. laser cutting equipment; 31. a housing; 311. a feeding port; 312. a discharge port; 32. a laser cutting assembly; 33. a fixed mount; 34. a lifting frame; 35. positioning a clamp; 36. positioning the clamping groove; 4. a sorting center; 51. a feeding channel; 511. a pre-feeding device; 512. a feeding track; 513. moving the feeding frame; 52. a blanking channel; 521. blanking a track; 522. moving a blanking frame; 53. a sorting channel; 6. extracting a material to be cut from a raw material library and placing the material to be cut on a moving workbench; 7. conveying the moving workbench with the material to be cut to laser cutting equipment in order to perform laser cutting; 8. and after the processing is finished, the workbench is moved and conveyed to a sorting center for sorting.

Detailed Description

The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. In the following description, for the purposes of clearly illustrating the structure and operation of the present invention, directional terms will be used, but terms such as "front", "rear", "left", "right", "outer", "inner", "outer", "inward", "upper", "lower", etc. should be construed as words of convenience and should not be construed as limiting terms. As used herein, "distal" and "proximal" of "distal", "proximal" and "proximal" are relative to the position of the operator, i.e., "proximal" near the operator and "distal" away from the operator.

It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the invention. The endpoints of the ranges and any values disclosed herein are not limited to the precise range or value, and such ranges or values should be understood to encompass values close to those ranges or values. For ranges of values, between the endpoints of each of the ranges and the individual points, and between the individual points may be combined with each other to give one or more new ranges of values, which ranges of values are to be considered as specifically disclosed herein, the invention is described in detail below with reference to specific examples:

example 1:

as shown in fig. 1, the present embodiment relates to an intelligent conveying system for laser cutting raw materials, which includes a plurality of traveling work tables 1, a plurality of transportation channels, a raw material warehouse 2, a laser cutting device 3, and a sorting center 4.

As shown in fig. 2, the traveling table 1 includes a table body 11, a limiting device, and a positioning device (not shown in the figure), where the positioning device includes a gps positioner and a signal transmitter, and is used to determine the position of the corresponding traveling table 1 in the system. The table body 11 comprises a rectangular frame 111, a support rod 112 arranged in the middle of the frame 111 along the length direction of the frame 111, and a plurality of support bars 113 arranged above the frame 111 along the width direction of the frame 111; the supporting bars 113 are fixedly connected with the frame 111 and the supporting bars 112 and are uniformly distributed along the length direction of the frame 111.

The limiting device comprises a positioning column 121 and a positioning groove 122; two positioning columns 121 are respectively arranged on two sides of the frame 111 in the length direction, which are far away from each other, and the positioning columns 121 extend along the direction of the frame 111 in the length direction, which is far away from the frame 111; the 18 positioning slots 122 are uniformly distributed on both sides of the frame 111 in the width direction. The positioning post 121 is a quadrangular prism, and the sectional area of the positioning post far away from the frame 111 is smaller than the sectional area of the positioning post close to the frame 111.

As shown in fig. 3, the laser cutting device 3 includes a housing 31, a laser cutting assembly 32, a fixing frame 33, a lifting frame 34, a positioning fixture 35, and a positioning card slot 36, wherein the laser cutting assembly 32, the fixing frame 33, the lifting frame 34, the positioning fixture 35, and the positioning card slot 36 are located in the housing 31, and the fixing frame 33 and the lifting frame 34 are located below the laser cutting assembly 32.

The height of the upper surface of the fixed frame 33 is a first height, and the lifting height of the lifting frame 34 comprises a first height, a second height and a third height which are slightly lower than the first height; the distances between the first height, the second height and the third height and the laser cutting assembly 32 are sequentially decreased progressively; the housing 31 has a material inlet 311 and a material outlet 312 at two ends along the length direction of the fixing frame 33.

The positioning fixture 35 and the positioning slot 36 are disposed at a third height of the two opposite inner sides of the housing 31 in the width direction, and the positioning fixture 35 can move in a direction approaching or departing the positioning slot 122 to be inserted into and engaged with the positioning slot 122. The positioning slot 36 matched with the positioning column 121 is arranged at one end or both ends of the lifting frame 34, the one end of the lifting frame close to the sorting center 4 is provided, the positioning slot 36 comprises two clamping blocks, one end of one side of each of the two blocks close to the frame 111 is inclined to the direction close to the frame 111, and the two side faces of each of the two positioning columns 121 away from each other are respectively abutted in the clamping state. For bringing the traveling table 1 in a stable state in the laser cutting device 3.

The conveying channel comprises a feeding channel 51, a discharging channel 52 and a sorting channel 53; the feeding channel 51 comprises a pre-feeding device 511, a feeding track 512 and a moving feeding frame 513, and the discharging channel 52 comprises a discharging track 521 and a moving discharging frame 522; the feeding rail 512 and the discharging rail 521 are arranged along the width direction of the laser cutting equipment 3, the moving feeding frame 513 moves in a translation manner between the feeding ports 311 of the laser cutting equipment 3 along the arrangement direction of the feeding rail 512, and the moving discharging frame 522 moves in a translation manner between the discharging ports 312 of the laser cutting equipment 3 along the arrangement direction of the discharging rail 521. The heights of pre-loading device 511, transfer loader 513, transfer unloader 522, sorting channel 53 include a first height and/or a second height.

Specifically, in the present embodiment, the pre-feeding device 511 has a component capable of ascending and descending between a first height and a second height, the two moving material loading frames 513 are respectively the first height and the second height, and the moving material unloading frame 522 is the first height, and in a more preferred embodiment, it is also feasible to provide the moving material loading frame 513 and the moving material unloading frame 522 with a component capable of ascending and descending between the first height and the second height.

The traveling table 1 is used for placing a raw material on the upper surface thereof and serves as a laser cutting table in the laser cutting device 3; the transport channel is used for transporting a plurality of the traveling working tables 1 among the raw material warehouse 2, the laser cutting equipment 3 and the sorting center 4. The system extracts materials to be cut from a raw material warehouse 2 and places the materials on a moving workbench 1; the moving workbench 1 with the material to be cut placed is orderly conveyed to laser cutting equipment 3 for laser cutting; after the processing is finished, the moving workbench 1 is conveyed to a sorting center 4 for sorting. The workbench with the bearing and supporting functions and the conveying device with the conveying function are integrated into the moving workbench 1, so that the moving workbench 1 can be formed into a workbench for laser cutting and can be used as a conveying system for conveying raw materials at the same time, the structure is compact, and the site utilization rate is high.

Example 2:

as shown in fig. 4, the present embodiment relates to a method for using an intelligent conveying system for laser cutting raw materials in embodiment 1, and includes the following steps:

step A, extracting a material to be cut from a raw material library 2 and placing the material to be cut on a moving workbench 1; judging whether the laser cutting equipment 3 on the path from the moving workbench 1 to the laser cutting equipment 3 is performing laser cutting operation or not; the transport is done through the first height if there is a laser cutting device 3 that is performing the laser cutting operation, otherwise it is done through either the first height or the second height.

Step B, orderly conveying the traveling workbench 1 with the material to be cut to laser cutting equipment 3 for laser cutting; after the moving workbench 1 moves into the corresponding laser cutting equipment 3, the moving workbench rises to a third height through the lifting frame 34, and is matched with the positioning groove 122 through the positioning fixture 35 and the positioning clamping groove 36 and the positioning column 121, so that the moving workbench 1 is in a stable state in the laser cutting equipment 3 and performs laser cutting operation.

And step C, after the processing is finished, the moving workbench 1 is conveyed to a sorting center 4 for sorting. After the laser cutting is finished, judging whether the laser cutting equipment 3 on the path from the laser cutting equipment 3 to the sorting center 4 of the traveling workbench 1 is performing the laser cutting operation or not; if the laser cutting equipment 3 which is performing the laser cutting operation exists, the parts are transported through the first height, otherwise, the parts can be transported through the first height or the second height, and the parts are sorted after the parts are transported to the sorting center 4.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (10)

1. An intelligent conveying system for laser cutting raw materials is characterized by comprising a plurality of traveling workbenches (1), a plurality of conveying channels, a raw material warehouse (2), laser cutting equipment (3) and a sorting center (4); the moving workbench (1) comprises a workbench body (11);

the plurality of traveling working tables (1) are used for placing raw materials on the upper surfaces of the traveling working tables and are used as laser cutting working tables in laser cutting equipment (3); the plurality of conveying channels are used for conveying the plurality of moving working tables (1) among the raw material warehouse (2), the laser cutting equipment (3) and the sorting center (4).

2. The intelligent conveying system for the laser cutting raw materials as claimed in claim 1, wherein the table body (11) comprises a rectangular frame (111), a support bar (112) arranged along the length direction of the frame (111), and a plurality of support bars (113) arranged along the width direction of the frame (111); the support bars (113) are fixedly arranged above the frame (111) and the support bars (112) and are uniformly distributed along the length direction of the frame (111).

3. The intelligent conveying system for laser cutting raw materials as claimed in claim 1, wherein the traveling table (1) further comprises a limiting device; the limiting device is used for enabling the moving workbench (1) to be in a stable state in the laser cutting equipment (3).

4. The intelligent conveying system for laser-cut raw materials as claimed in claim 3, wherein the limiting device comprises a plurality of positioning columns (121) and a plurality of positioning grooves (122); the positioning columns (121) are positioned on two mutually far side surfaces in the length direction of the frame (111) and extend along the length direction of the frame (111); the positioning grooves (122) are positioned on two sides of the width direction of the frame (111);

the laser cutting equipment (3) comprises a shell (31), a laser cutting assembly (32), a fixed frame (33) and a lifting frame (34), wherein the laser cutting assembly (32), the fixed frame (33) and the lifting frame (34) are positioned in the shell (31), and the fixed frame (33) and the lifting frame (34) are positioned below the laser cutting assembly (32); two opposite inner sides of the shell (31) in the width direction are provided with positioning clamps (35) matched with the positioning grooves (122), and one end or two ends of the lifting frame (34) are provided with positioning clamping grooves (36) matched with the positioning columns (121).

5. The intelligent conveying system for laser cutting raw materials as claimed in claim 4, wherein the height of the upper surface of the fixed frame (33) is a first height, and the lifting height of the lifting frame (34) comprises the first height, a second height and a third height; the distances between the first height, the second height and the third height and the laser cutting assembly (32) are sequentially decreased; and a feeding port (311) and a discharging port (312) are respectively arranged at two ends of the shell (31) along the length direction of the fixing frame (33).

6. The intelligent conveying system for laser cutting raw materials as claimed in claim 5, wherein the positioning fixture (35) and the positioning clamping groove (36) are at a third height and can move telescopically towards or away from the positioning groove (122).

7. The intelligent conveying system for laser cutting raw materials as claimed in claim 5, wherein the plurality of transportation channels comprise a feeding channel (51), a blanking channel (52) and a sorting channel (53);

the feeding channel (51) comprises a pre-feeding device (511), a feeding track (512) and a moving feeding frame (513), and the discharging channel (52) comprises a discharging track (521) and a moving discharging frame (522); the feeding rail (512) and the blanking rail (521) are arranged along the width direction of the laser cutting equipment (3), the moving feeding frame (513) moves in a translation mode between feeding ports (311) of the laser cutting equipment (3) along the arrangement direction of the feeding rail (512), and the moving blanking frame (522) moves in a translation mode between discharging ports (312) of the laser cutting equipment (3) along the arrangement direction of the blanking rail (521); the heights of the pre-loading device (511), the moving loading frame (513), the moving unloading frame (522) and the sorting channel (53) comprise a first height and/or a second height.

8. The intelligent conveying system for laser-cut raw materials according to claim 1, characterized in that said traveling table (1) further comprises a positioning device; the positioning device is used for determining the position of the corresponding travelling workbench (1) in the system.

9. The intelligent conveying system for laser cutting raw materials as claimed in claim 8, wherein the positioning device comprises a gps positioner and a signal transmitter.

10. The use method of the intelligent conveying system for the laser cutting raw materials is characterized by comprising the following steps:

A. extracting a material to be cut from a raw material warehouse (2) and placing the material to be cut on a moving workbench (1);

B. the moving workbench (1) provided with the material to be cut is sequentially conveyed to laser cutting equipment (3) for laser cutting;

C. after the processing is finished, the moving workbench (1) is conveyed to a sorting center (4) for sorting.

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