CN212043175U - Reciprocating laser cutting system - Google Patents

Reciprocating laser cutting system Download PDF

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Publication number
CN212043175U
CN212043175U CN202020620050.0U CN202020620050U CN212043175U CN 212043175 U CN212043175 U CN 212043175U CN 202020620050 U CN202020620050 U CN 202020620050U CN 212043175 U CN212043175 U CN 212043175U
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China
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frame
feeding mechanism
cutting
guide
rack
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CN202020620050.0U
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Chinese (zh)
Inventor
张朋
杨燕萍
谢嘉伟
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Guangdong Kudi Erji Laser Equipment Co ltd
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Guangdong Kudi Erji Laser Equipment Co ltd
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Priority to CN202020620050.0U priority Critical patent/CN212043175U/en
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Abstract

The utility model discloses a reciprocating laser cutting system, which comprises a frame; the beam mechanism comprises a beam frame arranged on the frame; the feeding mechanism is arranged on the rack and used for inputting a first material; the feeding mechanism is arranged on the rack and is in butt joint with the feeding mechanism, the beam mechanism corresponds to the position between the feeding mechanism and the feeding mechanism, and the feeding mechanism is used for outputting a second material; the cutting mechanism is arranged on the cross beam frame and can move along the cross beam frame. The frame provides crossbeam mechanism, supplied material mechanism and feeding mechanism's support, first material is carried and is passed through crossbeam mechanism by feeding mechanism, cutting mechanism moves and cuts on crossbeam mechanism, the realization obtains the second material to the cutting process of first material, the second material arrives feeding mechanism afterwards and is sent next process by feeding mechanism, because supplied material mechanism and feeding mechanism butt joint, accept first material and second material around, compare traditional large-scale table surface, the workstation is littleer, compact structure, the cost is lower.

Description

Reciprocating laser cutting system
Technical Field
The utility model relates to a laser cutting technical field especially relates to a reciprocating type laser cutting system.
Background
Laser, english full name: light Amplification by modulated Emission of Radiation, meaning "expanded by Stimulated Emission of Light", laser is another major utility creation by humans in the twentieth century after nuclear power, computers and semiconductors, and is called "fastest knife", "most accurate ruler" and "brightest Light". Laser cutting is the use of focused high power density laser beam to irradiate the workpiece, so that the irradiated material is melted, vaporized, ablated or reaches the burning point rapidly, and at the same time, the high speed gas flow coaxial with the beam blows off the melted material, thereby realizing the function of cutting the workpiece. Laser cutting, a precision machining method, can be used to cut almost all materials, including two-dimensional cutting or three-dimensional cutting of thin metal sheets.
The laser cutting machine is a cutting machine manufactured by utilizing a laser cutting principle, namely, the laser cutting machine can enable laser emitted from a laser to pass through an optical path system and further focus the laser into a laser beam with high power density, and the laser beam is utilized to cut and process a workpiece. Conventional laser cutting machines are usually equipped with a large-sized work table, which not only makes the overall equipment occupy a large space, but also increases the equipment cost.
SUMMERY OF THE UTILITY MODEL
Based on this, there is a need for a reciprocating laser cutting system; the reciprocating laser cutting system does not need a large-scale workbench, occupies small space and has low equipment cost.
The technical scheme is as follows:
a reciprocating laser cutting system comprising a frame; the cross beam mechanism comprises a cross beam frame, and the cross beam is erected on the rack; the feeding mechanism is arranged on the rack and used for inputting a first material; the feeding mechanism is arranged on the rack and is in butt joint with the feeding mechanism, the beam mechanism corresponds to the feeding mechanism and the feeding mechanism in position, and the feeding mechanism is used for outputting a second material; and the cutting mechanism is arranged on the cross beam frame, can move along the cross beam frame, and is used for cutting the first material and obtaining the second material.
Above-mentioned reciprocating type laser cutting system, the frame provides crossbeam mechanism, supplied materials mechanism and feeding mechanism's support, first material is carried and is passed through crossbeam mechanism by feeding mechanism, cutting mechanism moves and cuts on crossbeam mechanism, in order to realize the cutting process to first material, thereby obtain the second material, the second material reachs feeding mechanism afterwards, and send next process by feeding mechanism, because supplied materials mechanism and feeding mechanism butt joint, accept first material and second material around, compare traditional large-scale table surface, the workstation is littleer, and the structure is compacter, the cost is lower.
The technical solution is further explained below:
in one embodiment, the cutting mechanism comprises a first mounting frame, a cutting head and a first driver, the first mounting frame is matched with the cross beam in a sliding mode, the cutting head and the first driver are both arranged on the first mounting frame, and the first driver can drive the cutting head to move on the first mounting frame.
In one embodiment, the cutting mechanism further comprises a first movable frame, the first movable frame is in sliding fit with the first mounting frame, the cutting head is arranged on the first movable frame, and the first driver can drive the first movable frame to move on the first mounting frame;
the cutting mechanism further comprises a first drag chain, one end of the first drag chain is connected with the first movable frame, and the other end of the first drag chain is connected with the first mounting frame.
In one embodiment, the beam frame is provided with a first slide rail and a first rack, the length direction of the first slide rail is parallel to the length direction of the first rack, the first mounting frame is provided with a first slide block, the first slide block is matched with the first slide rail in a sliding manner, the cutting mechanism further comprises a second driver and a first gear, the second driver is arranged on the first mounting frame, the first gear is in transmission connection with the second driver, and the first gear is in meshing connection with the first rack.
In one embodiment, the beam mechanism further comprises a second drag chain, one end of the second drag chain is connected with the first mounting frame, and the other end of the second drag chain is connected with the beam frame;
the beam mechanism further comprises a limiting stopper, the limiting stopper is arranged on the beam frame, and the limiting stopper is used for limiting the moving position of the first installation frame on the beam frame.
In one embodiment, the feeding mechanism comprises a second mounting frame and a first rolling module, the second mounting frame is arranged on the rack, at least one first rolling module is arranged on the first rolling module, and the first rolling module is rotatably arranged on the second mounting frame.
In one embodiment, the feeding mechanism further comprises a first guide plate and a second guide plate which are arranged at intervals, the first guide plate and the second guide plate are arranged on the second mounting frame oppositely, and the first guide plate and the second guide plate can move on the second mounting frame to guide the first material.
In one embodiment, the feeding mechanism further comprises an adjusting shaft and a first guide rod, the adjusting shaft is rotatably arranged on the second mounting frame, the adjusting shaft is provided with a first threaded portion and a second threaded portion, and the first guide rod is arranged on the second mounting frame;
the first guide plate is provided with a first screw connection block and a first guide block, the first screw connection block is in screw connection fit with the first thread part, and the first guide block is provided with a first guide hole in guide fit with the first guide rod;
the second guide plate is provided with a second screw connection block and a second guide block, the second screw connection block is in screw connection fit with the second thread part, and the second guide block is provided with a second guide hole in guide fit with the first guide rod.
In one embodiment, the feeding mechanism comprises a third mounting frame, a first roller group and a second roller group, the third mounting frame is arranged on the rack, the first roller group comprises at least one first roller shaft, the second roller group comprises at least one second roller shaft, the first roller shaft and the second roller shaft are both rotatably arranged on the third mounting frame, and the first roller group and the second roller group are arranged at intervals to form a material clamping gap for outputting the second material;
feeding mechanism still includes fourth mounting bracket and second roll module, the fourth mounting bracket is established on the third mounting bracket, the second rolls the module and is equipped with at least one, the second rolls the module and rotates and establish on the fourth mounting bracket.
In one embodiment, the reciprocating laser cutting system further comprises a deslagging mechanism, wherein the deslagging mechanism is arranged on the frame;
the feeding mechanism is characterized in that a control cabinet is further arranged on the rack, a control assembly is arranged in the control cabinet and used for controlling the movement of the feeding mechanism, the feeding mechanism and the cutting mechanism.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification.
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.
FIG. 1 is an overall block diagram of a reciprocating laser cutting system in one embodiment;
FIG. 2 is a first perspective view of the cutting mechanism of the embodiment of FIG. 1;
FIG. 3 is a second perspective view of the cutting mechanism of the embodiment of FIG. 1;
FIG. 4 is an internal block diagram of the cutting mechanism of the embodiment of FIG. 1;
FIG. 5 is a first perspective view of the cross-beam mechanism of the embodiment of FIG. 1;
FIG. 6 is a second perspective view of the cross-beam mechanism of the embodiment of FIG. 1;
FIG. 7 is an enlarged view of a portion of the first rack and the first slide of FIG. 1;
FIG. 8 is an enlarged view of a portion of the assembly of the cutting mechanism and the cross bar mechanism of FIG. 1;
FIG. 9 is a first perspective view of the feeding mechanism of the embodiment of FIG. 1;
FIG. 10 is a second perspective view of the feeding mechanism of the embodiment of FIG. 1;
FIG. 11 is a first perspective view of the feed mechanism of the embodiment of FIG. 1;
FIG. 12 is a second perspective view of the feed mechanism of the embodiment of FIG. 1;
FIG. 13 is a schematic view of FIG. 1 with the beam mechanism and cutting mechanism removed;
fig. 14 is a schematic view of the overall structure of the rack in the embodiment of fig. 1.
Reference is made to the accompanying drawings in which:
100. a frame; 200. a beam mechanism; 210. a cross beam frame; 211. a first slide rail; 212. a first rack; 213. a second slide rail; 220. a second tow chain; 230. a stopper; 300. a feeding mechanism; 310. a second mounting bracket; 320. a first rolling module; 330. a first guide plate; 340. a second guide plate; 350. an adjustment wheel; 360. a first auxiliary shaft; 400. a feeding mechanism; 410. a third mounting bracket; 420. a first roller shaft; 430. a second roller shaft; 440. a fourth mounting bracket; 450. a second rolling module; 460. a second auxiliary shaft; 471. a third driver; 472. a fourth driver; 500. a cutting mechanism; 510. a first mounting bracket; 511. a first slider; 512. a second slider; 520. a cutting head; 530. a first driver; 540. a first movable frame; 550. a first tow chain; 560. a second driver; 570. a first gear; 581. a first housing; 582. a second housing; 590. a second gear; 610. a first material; 620. a second material.
Detailed Description
The embodiments of the present invention will be described in detail below with reference to the accompanying drawings:
in order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.
In the description of the present invention, 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", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.
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 at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.
It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.
Referring to fig. 1 to 14, a reciprocating laser cutting system includes a frame 100; the cross beam mechanism 200, the cross beam mechanism 200 comprises a cross beam 210, and the cross beam 210 is arranged on the rack 100; the feeding mechanism 300, the feeding mechanism 300 is arranged on the rack 100, and the feeding mechanism 300 is used for inputting a first material 610; the feeding mechanism 400 is arranged on the rack 100 and is in butt joint with the feeding mechanism 300, the beam mechanism 200 corresponds to the feeding mechanism 400 and the feeding mechanism 300, and the feeding mechanism 400 is used for outputting a second material 620; and the cutting mechanism 500 is arranged on the cross beam 210, the cutting mechanism 500 can move along the cross beam 210, and the cutting mechanism 500 is used for cutting the first material 610 and obtaining the second material 620.
According to the reciprocating laser cutting system, the frame 100 provides support for the beam mechanism 200, the material receiving mechanism 300 and the feeding mechanism 400, the first material 610 is conveyed by the material receiving mechanism 300 and passes through the beam mechanism 200, the cutting mechanism 500 reciprocates on the beam mechanism 200 and cuts the first material 610, so that the second material 620 is obtained, the second material 620 then reaches the feeding mechanism 400 and is sent to the next process by the feeding mechanism 400, and the first material 610 and the second material 620 are received in a front-back mode due to the fact that the material receiving mechanism 300 is in butt joint with the feeding mechanism 400.
The beam mechanism 200 is a mechanism that spans across the rack 100, as shown in fig. 1, 5 and 6, the beam frame 210 is a portal frame (a door-shaped frame), the beam frame 210 is correspondingly disposed at an upper position between the feeding mechanism 300 and the feeding mechanism 400, the cutting mechanism 500 is disposed on the beam frame 210 and can move along the beam frame 210, and the first material 610 passes below the beam frame 210, so as to realize cutting processing of the first material 610.
Optionally, as shown in fig. 1, the material receiving mechanism 300 and the material feeding mechanism 400 are respectively disposed on the left side and the right side of the rack 100, the material receiving mechanism 300 receives a conveyed first material 610 to be cut, the first material 610 may be a rolled plate, and reaches a cutting area corresponding to the cutting mechanism 500 through conveying by the material receiving mechanism 300, during conveying by the material receiving mechanism 300, the cutting mechanism 500 finishes cutting the first material 610 to obtain a second material 620, at this time, the second material 620 reaches the material feeding mechanism 400, and the material feeding mechanism 400 conveys the cut second material 620 to a next process, so as to finish cutting. Because the feeding mechanism 300 is in butt joint with the feeding mechanism 400, the process of forming the second material 620 by the first material 610 in cutting is realized, and a special workbench is not required, so that the structure is more compact, and the manufacturing cost is lower; meanwhile, the first material 610 directly reaches the feeding mechanism 400 after being cut to form the second material 620, so that the cutting and conveying time is reduced without passing through a workbench, and the cutting efficiency is improved.
It should be noted that, the butt joint between the feeding mechanism 400 and the feeding mechanism 300 should be understood as being capable of realizing the conveying function of the first material 610, the processing of the first material 610 during conveying, and the conveying function of the second material 620 formed after the first material 610 is processed, and this butt joint may be a certain interval or a direct butt joint. So set up, alright save supporting workstation, reduce the occupation space of equipment on the one hand, on the other hand, also reduced the cost.
In one embodiment, referring to fig. 2 to 4, the cutting mechanism 500 includes a first mounting frame 510, a cutting head 520, and a first driver 530, the first mounting frame 510 is slidably engaged with the cross beam 210, the cutting head 520 and the first driver 530 are both disposed on the first mounting frame 510, and the first driver 530 can drive the cutting head 520 to move on the first mounting frame 510.
Alternatively, the first driver 530 may be a servo motor or a stepping motor to output a linear motion by providing an intermediate assembly to push the cutting head 520 to move on the first mounting frame 510. Of course, the first driver 530 may be a driving device such as an electric push rod directly outputting the linear motion. In operation, as shown in fig. 1, 2 and 4, the first driver 530 moves the cutting head 520 up and down on the first mounting bracket 510.
Optionally, the cutting head 520 is used for cutting the first material 610, the cutting head 520 includes a nozzle, a focusing lens and a focusing tracking system, and the existing cutting head 520 can be selected according to the specific situation and design requirements of the first material 610 to be cut.
In one embodiment, referring to fig. 2 and 4, the cutting mechanism 500 further includes a first movable frame 540, the first movable frame 540 is slidably engaged with the first mounting frame 510, the cutting head 520 is disposed on the first movable frame 540, and the first driver 530 can drive the first movable frame 540 to move on the first mounting frame 510.
The first movable frame 540 is used for installing the cutting head 520, the sliding fit between the first movable frame 540 and the first mounting frame 510 can be realized through a sliding rail, and the first driver 530 drives the first movable frame 540 to move on the first mounting frame 510 so as to drive the cutting head 520 to move.
In one embodiment, referring to fig. 1 to 4, the cutting mechanism 500 further includes a first drag chain 550, one end of the first drag chain 550 is connected to the first movable frame 540, and the other end of the first drag chain 550 is connected to the first mounting frame 510.
A tow chain, also known as a Cable carrier, is a device for binding cables or wires to facilitate rotation and movement thereof. Since the cutting head 520 is required to be connected with a cable or the like and the cable may be wound and pulled during the elevation of the cutting head 520, the first tow chain 550 is provided. One end of the first drag chain 550 is fixedly connected to the first movable frame 540, so that the cable on the first drag chain 550 is electrically connected to the cutting head 520, and the other end of the first drag chain 550 is fixedly connected to the first mounting frame 510, so that the cable is electrically connected to the corresponding portion.
In one embodiment, referring to fig. 2 to 8, the cross beam 210 is provided with a first slide rail 211 and a first rack 212, a length direction of the first slide rail 211 is parallel to a length direction of the first rack 212, the first mounting bracket 510 is provided with a first slide block 511, the first slide block 511 is slidably engaged with the first slide rail 211, the cutting mechanism 500 further includes a second driver 560 and a first gear 570, the second driver 560 is provided on the first mounting bracket 510, the first gear 570 is in transmission connection with the second driver 560, and the first gear 570 is in meshing connection with the first rack 212.
In order to enable the cutting mechanism 500 to realize the function of moving on the cross beam 210, during operation, the second driver 560 drives the first gear 570 to rotate, the first gear 570 is meshed with the first rack 212, so that the technical effect that the first gear 570 moves along the first rack 212 in a meshed mode is realized, the first rack 212 is arranged along the length direction of the cross beam 210, therefore, the technical effect that the first gear 570 moves along the length direction of the cross beam 210 is also realized, the first gear 570 is in transmission connection with the second driver 560, the second driver 560 is arranged on the first mounting rack 510, the cutting head 520 is arranged on the first mounting rack 510, and the technical effect that the cutting head 520 moves along the length direction of the cross beam 210 is further realized.
Further, a second slide rail 213 is arranged on the beam frame 210, a second slide block 512 is further arranged on the first mounting frame 510, and the second slide block 512 is in sliding fit with the second slide rail 213. As shown in fig. 2 to 4 and 8, the first slide rail 211 is disposed on the upper portion of the cross beam 210, and the second slide rail 213 is disposed on the side portion of the cross beam 210, so that the first slide rail 211 is slidably engaged with the first slider 511, the second slide rail 213 is slidably engaged with the second slider 512, and the first rack 212 is engaged with the first gear 570, thereby ensuring accurate movement of the cutting head 520 on the cross beam 210 and achieving high cutting accuracy.
Further, the cutting mechanism 500 further includes a second gear 590, the second gear 590 is rotatably disposed on the first mounting frame 510, and the second gear 590 is engaged with the first rack 212. So set up, first gear 570 and second gear 590 all cooperate with the meshing of first rack 212, and first gear 570 is the action wheel, and second gear 590 is the driven wheel, guarantees the driven precision of gear drive.
In one embodiment, referring to fig. 1, 5 and 6, the cross beam mechanism 200 further includes a second drag chain 220, one end of the second drag chain 220 is connected to the first mounting frame 510, and the other end of the second drag chain 220 is connected to the cross beam 210.
One end of the second drag chain 220 is connected to the first mounting bracket 510 so that the cables of the first driver 530, the second driver 560, the cutting head 520, etc. are connected to the cable in the second drag chain 220, and the other end of the second drag chain 220 is fixed to the cross beam 210 so that the cable in the second drag chain 220 is butted against the corresponding wire. The second drag chain 220 is used to avoid the problem that the cable is wound and pulled during the process that the cutting device moves along the length direction of the beam frame 210.
It should be noted that, as shown in fig. 1, 5 and 6, a portion of the second tow chain 220 may be attached to the cross-beam 210 by a tow chain box, and the tow chain may be attached to a side portion of the cross-beam 210.
In one embodiment, referring to fig. 7 and 8, the cross beam mechanism 200 further includes a stopper 230, the stopper 230 is disposed on the cross beam 210, and the stopper 230 is used for limiting the moving position of the first mounting frame 510 on the cross beam 210.
The stop 230 is used to limit the position of the cutting device on the cross-beam 210 to avoid excessive movement of the cutting device on the cross-beam 210 in the event of an anomaly.
As shown in fig. 8, a stopper 230 is provided at an end of the first rack 212. The position limiter 230 may be a position limiting plate or a position detector, and those skilled in the art can select the position limiter 230 with the existing specification according to actual needs to realize the position limiting function.
Further, two stoppers 230 are provided, and the two stoppers 230 are respectively provided at two ends of the first rack 212 to respectively realize a function of limiting the two ends.
In one embodiment, as shown in fig. 2 and 3, the cutting mechanism 500 further includes a first housing 581 and a second housing 582, the first housing 581 and the second housing 582 are both secured to the first mounting frame 510, the cutting head 520 and the first driver 530 are disposed within the first housing 581, and the second driver 560 is disposed within the second housing 582. In fig. 2 and 3, the first housing 581 and the second housing 582 are integrally butted together, so that the structure is more compact.
In one embodiment, referring to fig. 9 and 10, the feeding mechanism 300 includes a second mounting rack 310 and a first rolling module 320, the second mounting rack 310 is disposed on the rack 100, at least one first rolling module 320 is disposed, and the first rolling module 320 is rotatably disposed on the second mounting rack 310.
The second mounting rack 310 is fixed on the rack 100, and the first rolling module 320 can smoothly move the first material 610 on the first mounting rack 510, avoid or reduce abrasion and the like to the first material 610, and achieve lossless conveying.
Further, the first rolling module 320 includes a first bracket and at least one ball rolling on the first bracket. As shown in fig. 9 and 10, the first rolling module 320 includes a first bracket and three balls rotatably disposed on the first bracket at intervals, so as to achieve a technical effect of enabling the first material 610 to roll on the balls.
Furthermore, in fig. 10, a plurality of first rolling modules 320 are provided, and a plurality of first rolling modules 320 are arranged on the second mounting frame 310 in rows along the width direction of the first material 610 and in rows along the conveying direction, and five rows are provided in fig. 10, so as to achieve the technical effect of conveying the first material 610.
In one embodiment, referring to fig. 10 and 11, the feeding mechanism 300 further includes a first guide plate 330 and a second guide plate 340 that are disposed at an interval, the first guide plate 330 and the second guide plate 340 are disposed on the second mounting frame 310 in an opposite manner, and the first guide plate 330 and the second guide plate 340 can move on the second mounting frame 310 to guide the first material 610.
In order to enable the first material 610 to be positioned at a desired location during the conveyance to correspond to the cutting head 520, the first guide plate 330 and the second guide plate 340 are provided to guide the conveyance of the first material 610. Because the setting of first deflector 330 and second deflector 340, first material 610 is at the in-process of sending into, first material 610 can directly lead and fix a position through first deflector 330 and second deflector 340, and cutting mechanism 500 realizes accurate position removal through the cooperation of guide rail slide rail again, consequently, compare the reciprocating type laser cutting system of tradition, the reciprocating type laser cutting system that this embodiment provided carries out calibration position and cutting mechanism 500 when need not follow-up cutting and carries out a series of troubles such as counterpoint, thereby can continue the pay-off blank, cutting efficiency is higher.
In one embodiment, the first guide plate 330 and the second guide plate 340 may be simultaneously moved toward one side to guide the conveying position of the first material 610 with a fixed width; of course, the first guide plate 330 and the second guide plate 340 can be far away from or close to each other to guide the width and position of the first material 610.
Specifically, the feeding mechanism 300 further includes an adjusting shaft and a first guide rod, the adjusting shaft is rotatably disposed on the second mounting frame 310, the adjusting shaft is provided with a first thread portion and a second thread portion, and the first guide rod is disposed on the second mounting frame 310.
Optionally, the first guide plate 330 is provided with a first screw joint block and a first guide block, the first screw joint block is in screw joint with the first threaded portion, and the first guide block is provided with a first guide hole in guide fit with the first guide rod.
Optionally, the second guide plate 340 is provided with a second screw joint block and a second guide block, the second screw joint block is in screw joint with the second threaded portion, and the second guide block is provided with a second guide hole in guide fit with the first guide rod.
With such an arrangement, when the adjusting shaft rotates, the first guide plate 330 moves along the axial direction of the adjusting shaft due to the threaded fit between the first threaded block and the first threaded portion and the guide fit between the first guide block and the first guide rod; meanwhile, the second guide plate 340 is in threaded fit with the second threaded portion due to the second threaded block, and the second guide hole is in guide fit with the first guide rod, so that the second guide plate 340 moves along the axis direction of the adjusting shaft, and the movement adjustment of the first guide plate 330 and the second guide plate 340 is realized through the rotation of the adjusting shaft.
When the thread directions of the first thread part and the second thread part are the same, the first guide plate 330 and the second guide plate 340 move in the same direction, so that the distance between the first guide plate 330 and the second guide plate 340 is inconvenient, and the positions of the first guide plate 330 and the second guide plate 340 are changed, thereby realizing the conveying and guiding of the first material 610.
When the thread directions of the first thread part and the second thread part are opposite, the first guide plate 330 and the second guide plate 340 move towards each other, that is, the first guide plate 330 and the second guide plate 340 are mutually folded, or the first guide plate 330 and the second guide plate 340 are mutually separated, so that the position and the distance between the first guide plate 330 and the second guide plate 340 can be doubly adjusted, and the matching and conveying guidance of the first materials 610 with different widths can be realized.
Further, first deflector 330 is established on first leading truck, and second deflector 340 is established on the second leading truck, and first deflector 330 still is the interval towards one side of second deflector 340 and is equipped with a plurality of first leading wheels, and second deflector 340 still is the interval towards one side of first deflector 330 and is equipped with a plurality of second leading wheels.
In one embodiment, the first guide wheel and the second guide wheel are rotatably disposed to facilitate the transportation of the first material 610, and to prevent the abrasion between the side of the first material 610 and the first guide plate 330 or the second guide plate 340.
In one embodiment, an adjustment wheel 350 is provided at one end of the adjustment shaft for easy rotation, and the adjustment wheel 350 may be a hand wheel for easy manual rotation for adjustment.
In one embodiment, the first guide rods are spaced apart from each other, the first guide plate 330 has a plurality of first guide blocks and is in guiding engagement with the first guide rods, and the second guide plate 340 has a plurality of second guide blocks and is in guiding engagement with the second guide rods. So set up, realize the direction of higher accuracy and remove technological effect.
Further, the second mounting bracket 310 is further rotatably provided with two first auxiliary shafts 360, and the height of the first auxiliary shafts 360 is lower than that of the first guide rod. So set up, first material 610 can be the climbing formula and carry gradually between first deflector 330 and the second deflector 340, satisfies the defeated material demand under the different situation.
In one embodiment, referring to fig. 11 and 12, the feeding mechanism 400 includes a third mounting frame 410, a first roller set and a second roller set, the third mounting frame 410 is disposed on the frame 100, the first roller set includes at least one first roller shaft 420, the second roller set includes at least one second roller shaft 430, the first roller shaft 420 and the second roller shaft 430 are both rotatably disposed on the third mounting frame 410, and the first roller set and the second roller set are disposed at intervals to form a material clamping gap for outputting the second material 620.
The first roller set and the second roller set form a material clamping structure to clamp and output the second material 620 obtained after the cutting process. As shown in fig. 11 and 12, three first roller shafts 420 are provided at intervals and rotatably installed on the third installation frame 410, three second roller shafts 430 are provided at intervals and rotatably installed on the third installation frame 410, and the first roller shafts 420 are provided at upper portions opposite to the second roller shafts 430.
The mechanism 300 automatically guides and positions the first material 610 through the first guide plate 330 and the second guide plate 340, after the cutting is performed through the cutting head 520, the second material 620 is formed, the second material 620 passes through the first roller set and the second roller set to form a material clamping structure, on one hand, clamping and conveying of the second material 620 after the cutting are achieved, on the other hand, the material clamping structure can also achieve the effects of flattening and the like of the second material 620, the situation that the second material 620 warps and the like due to the fact that stress disappears after the cutting is caused by factors such as stress existing in the cutting process due to the first material 610 is avoided, and the quality of the product after the cutting is guaranteed.
In one embodiment, as shown in fig. 11 and 12, the feeding mechanism 400 further includes a third driver 471 and a fourth driver 472, wherein the third driver 471 is used for rotating the first roller 420, and the fourth driver 472 is used for driving the second roller 430 to rotate. The third driver 471 and the fourth driver 472 can both be motors, and when the driving is actually performed, the transmission can be performed between the adjacent first roller shafts 420 through a first synchronous belt or a gear assembly, and the transmission can be performed between the adjacent second roller shafts 430 through a second synchronous belt or a gear, and the technical personnel in the field can complete the specific transmission arrangement according to the actual situation, so as to drive the synchronous rotation.
Further, the feeding mechanism 400 further includes a first tension roller for tensioning the first timing belt and a second tension roller for tensioning the second timing belt.
In one embodiment, referring to fig. 11 and 12, the feeding mechanism 400 further includes a fourth mounting frame 440 and a second rolling module 450, the fourth mounting frame 440 is disposed on the third mounting frame 410, at least one of the second rolling module 450 is disposed, and the second rolling module 450 is rotatably disposed on the fourth mounting frame 440.
The fourth mounting bracket 440 is disposed at the end of the feeding mechanism 400, and the fourth mounting bracket 440 is disposed on the third mounting bracket 410 in an inclined manner, so that the second material 620 can be output to the next process at an inclined angle, which also means that the output height of the second material 620 is reduced.
The second rolling module 450 and the first rolling module 320 can be configured in the same way to achieve the technical effect of rolling transportation.
Further, the fourth mounting bracket 440 may be rotatably connected to the third mounting bracket 410, and the inclination angle of the fourth mounting bracket 440 may be adjusted by rotating the fourth mounting bracket 440, so as to adjust the height of the output. In addition, a fifth driver may be provided on the third mount 410 to drive the fourth mount 440 to rotate on the third mount 410.
In addition, in an embodiment, the feeding mechanism 400 further includes a second auxiliary roller, the second auxiliary roller is rotatably disposed on the third mounting frame 410, the second auxiliary roller is located at a position where the third mounting frame 410 and the fourth mounting frame 440 are connected, and the second auxiliary roller forms a gap with the second rolling module 450 on the fourth mounting frame 440, so that the second material 620 passing through between the first roller set and the second roller set further passes through the gap between the second rolling module 450 and the second auxiliary roller and further reaches the second rolling module 450, and the receiving and transferring function of the second material 620 from the third mounting frame 410 to the fourth mounting frame 440 is realized.
In one embodiment, the reciprocating laser cutting system further includes a slag removal mechanism disposed on the frame 100.
Cutting mechanism 500 can produce residue piece etc. at the in-process of cutting, sets up the slagging-off mechanism to clear away and retrieve the residue piece, avoid the residue piece to produce the influence to the normal operating of equipment.
Optionally, the slagging-off mechanism can be a negative pressure adsorption cylinder, also can be other structures that can satisfy the slagging-off requirement, and the technical staff in the art can choose current slagging-off supporting and install it on frame 100 according to actual need to realize the slagging-off function.
In one embodiment, the rack 100 is further provided with a control cabinet, and a control assembly is arranged in the control cabinet and is used for controlling the movement of the feeding mechanism 300, the feeding mechanism 400 and the cutting mechanism 500.
The control components in the control cabinet are used for controlling the operation of the feeding mechanism 300, the movement of the feeding mechanism 400 and the cutting action of the cutting mechanism 500 so as to realize the whole laser cutting in a coordinated manner.
In one embodiment, as shown in fig. 13 and 14, the frame 100 may be a rectangular frame structure, the feeding mechanism 300 and the feeding mechanism 400 are respectively disposed at two opposite sides of the frame 100, and one skilled in the art may further dispose a walking wheel and other components at the bottom of the frame 100 according to actual needs to facilitate the movement.
In addition, in order to facilitate the installation of the feeding mechanism 300, the feeding mechanism 400 and the beam mechanism 200, the frame 100 may be provided with a first installation part, a second installation part and a third installation part, which are correspondingly assembled with the feeding mechanism 300, the feeding mechanism 400 and the beam mechanism 200, respectively.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A reciprocating laser cutting system, comprising:
a frame;
the cross beam mechanism comprises a cross beam frame, and the cross beam is erected on the rack;
the feeding mechanism is arranged on the rack and used for inputting a first material;
the feeding mechanism is arranged on the rack and is in butt joint with the feeding mechanism, the beam mechanism corresponds to the feeding mechanism and the feeding mechanism in position, and the feeding mechanism is used for outputting a second material; and
the cutting mechanism is arranged on the cross beam frame and can move along the cross beam frame, and the cutting mechanism is used for cutting the first material and obtaining the second material.
2. The reciprocating laser cutting system of claim 1, wherein the cutting mechanism includes a first mounting bracket slidably engaged with the cross-beam, a cutting head and a first drive, both the cutting head and the first drive being provided on the first mounting bracket, the first drive being capable of driving the cutting head to move on the first mounting bracket.
3. The reciprocating laser cutting system of claim 2, wherein the cutting mechanism further comprises a first movable frame slidably engaged with the first mounting frame, the cutting head is disposed on the first movable frame, and the first driver is capable of driving the first movable frame to move on the first mounting frame;
the cutting mechanism further comprises a first drag chain, one end of the first drag chain is connected with the first movable frame, and the other end of the first drag chain is connected with the first mounting frame.
4. The reciprocating laser cutting system of claim 2, wherein the beam frame is provided with a first slide rail and a first rack, the length direction of the first slide rail is parallel to the length direction of the first rack, the first mounting frame is provided with a first slider, the first slider is slidably matched with the first slide rail, the cutting mechanism further comprises a second driver and a first gear, the second driver is arranged on the first mounting frame, the first gear is in transmission connection with the second driver, and the first gear is in meshing connection with the first rack.
5. The reciprocating laser cutting system of claim 2, wherein the beam mechanism further comprises a second drag chain, one end of the second drag chain being connected to the first mounting bracket and the other end of the second drag chain being connected to the beam frame;
the beam mechanism further comprises a limiting stopper, the limiting stopper is arranged on the beam frame, and the limiting stopper is used for limiting the moving position of the first installation frame on the beam frame.
6. The reciprocating laser cutting system of any one of claims 1-5, wherein the feeding mechanism comprises a second mounting frame and a first rolling module, the second mounting frame is arranged on the machine frame, the first rolling module is provided with at least one, and the first rolling module is rotatably arranged on the second mounting frame.
7. The reciprocating laser cutting system of claim 6, wherein the feeding mechanism further comprises a first guide plate and a second guide plate arranged at intervals, the first guide plate and the second guide plate are oppositely arranged on the second mounting frame, and the first guide plate and the second guide plate can move on the second mounting frame to guide the first material.
8. The reciprocating laser cutting system of claim 7, wherein the feeding mechanism further comprises an adjustment shaft rotatably disposed on the second mounting bracket, the adjustment shaft having a first threaded portion and a second threaded portion, and a first guide rod disposed on the second mounting bracket;
the first guide plate is provided with a first screw connection block and a first guide block, the first screw connection block is in screw connection fit with the first thread part, and the first guide block is provided with a first guide hole in guide fit with the first guide rod;
the second guide plate is provided with a second screw connection block and a second guide block, the second screw connection block is in screw connection fit with the second thread part, and the second guide block is provided with a second guide hole in guide fit with the first guide rod.
9. The reciprocating laser cutting system as claimed in any one of claims 1 to 5, wherein the feeding mechanism comprises a third mounting frame, a first roller set and a second roller set, the third mounting frame is arranged on the frame, the first roller set comprises at least one first roller, the second roller set comprises at least one second roller, the first roller and the second roller are rotatably arranged on the third mounting frame, and the first roller set and the second roller set are arranged at intervals to form a material clamping gap for outputting the second material;
feeding mechanism still includes fourth mounting bracket and second roll module, the fourth mounting bracket is established on the third mounting bracket, the second rolls the module and is equipped with at least one, the second rolls the module and rotates and establish on the fourth mounting bracket.
10. The reciprocating laser cutting system of any of claims 1-5, further comprising a de-scum mechanism, the de-scum mechanism being provided on the frame;
the feeding mechanism is characterized in that a control cabinet is further arranged on the rack, a control assembly is arranged in the control cabinet and used for controlling the movement of the feeding mechanism, the feeding mechanism and the cutting mechanism.
CN202020620050.0U 2020-04-22 2020-04-22 Reciprocating laser cutting system Active CN212043175U (en)

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Application Number Priority Date Filing Date Title
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111318822A (en) * 2020-04-22 2020-06-23 广东库迪二机激光装备有限公司 Reciprocating laser cutting system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111318822A (en) * 2020-04-22 2020-06-23 广东库迪二机激光装备有限公司 Reciprocating laser cutting system

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PE01 Entry into force of the registration of the contract for pledge of patent right
PE01 Entry into force of the registration of the contract for pledge of patent right

Denomination of utility model: Reciprocating laser cutting system

Effective date of registration: 20220416

Granted publication date: 20201201

Pledgee: Agricultural Bank of China Limited Shunde Ronggui sub branch

Pledgor: GUANGDONG KUDI ERJI LASER EQUIPMENT Co.,Ltd.

Registration number: Y2022980004172