CN220612671U - Feeding platform of laser cutting machine - Google Patents

Abstract

The utility model discloses a feeding platform of a laser cutting machine, which comprises: the feeding frame is internally connected with a feeding frame, a plurality of feeding sheets are arranged in the feeding frame along the front-back direction, the top sides of the plurality of feeding sheets form a feeding plane, and a feeding gap is formed between any two adjacent feeding sheets; the lifting drive can drive the material supporting frame to move downwards and enable the plurality of buffer pieces to move downwards to the position below the feeding plane.

Description

Feeding platform of laser cutting machine

Technical Field

The utility model relates to a machine tool, in particular to a feeding platform of a laser cutting machine.

Background

When the workpiece is cut by laser, the workpiece is firstly placed on a feeding platform, then the laser head moves to be close to the workpiece, the workpiece is cut by laser, and after the laser cutting is finished, the workpiece is taken out from the feeding platform. However, in the loading and unloading process, since the feeding platform is generally provided with a plurality of tips for supporting the workpiece, when the workpiece moves on the tips, the tips easily scratch the bottom surface of the workpiece, and influence the product quality of the workpiece, therefore, a feeding platform of a laser cutting machine capable of protecting loading and unloading of the workpiece is needed.

Disclosure of Invention

The utility model aims to provide a feeding platform of a laser cutting machine, which solves one or more technical problems in the prior art and at least provides a beneficial selection or creation condition.

The utility model solves the technical problems as follows:

a laser cutter feed platform comprising: the feeding frame is internally connected with a feeding frame, a plurality of feeding sheets are arranged in the feeding frame along the front-back direction, the top sides of the plurality of feeding sheets jointly form a feeding plane, and a feeding gap is formed between any two adjacent feeding sheets; the material supporting mechanism comprises a lifting drive, a material supporting frame and a buffer piece, wherein the lifting drive is connected to the underframe, the material supporting frame is connected to the lifting drive, the buffer piece is respectively arranged at the position, which is opposite to a plurality of feeding gaps, on the material supporting frame, the lifting drive can drive the material supporting frame to move upwards and enable a plurality of buffer pieces to protrude out of the feeding plane, and the lifting drive can drive the material supporting frame to move downwards and enable a plurality of buffer pieces to move downwards to the position below the feeding plane.

The technical scheme has at least the following beneficial effects: when the workpiece is required to be fed to the feeding frame, the lifting drive drives the material supporting frame to move upwards, so that the plurality of buffer pieces protrude upwards from the plurality of feeding gaps respectively to form a material supporting plane, the workpiece can be placed on the material supporting plane in advance, the buffer pieces play a role in buffering protection when the workpiece is placed, then the lifting drive drives the material supporting frame to move downwards, the plurality of buffer pieces move downwards to the lower part of the material feeding plane respectively from the plurality of feeding gaps, the plurality of buffer pieces can place the workpiece on the material feeding plane in the downwards moving process, the workpiece is supported by the material feeding plane, the workpiece can be fed, and the workpiece can be fed by the lifting drive.

As a further improvement of the technical scheme, the buffer piece comprises a supporting piece extending along the left-right direction and an elastic sleeve connected to the top side of the supporting piece, and the bottom side of the supporting piece is connected to the material supporting frame. The support piece is used for being connected to the support material frame, plays main supporting and fixing roles, and the top side of support piece is connected with the elastic sleeve, and the work piece can play buffering cushioning effect when placing in the support piece to effectively reduce the scratch injury that causes the work piece.

As a further improvement of the technical scheme, a plurality of connecting plates are arranged in the feeding frame at intervals along the left-right direction, the feeding frame is divided into a plurality of feeding areas by the plurality of connecting plates, a plurality of feeding sheets are arranged in each feeding area along the front-back direction, and avoidance grooves are formed in positions, opposite to the plurality of connecting plates, of the top side of the supporting sheet. When the width is great about the pay-off frame, be provided with a plurality of connecting plates along left and right directions interval in the pay-off frame this moment, then connect a plurality of pay-off pieces respectively between pay-off frame inboard and connecting plate, or be between two connecting plates, so be provided with a plurality of pay-off pieces along left and right directions in the pay-off frame, can strengthen overall structure's stability, effectively avoid the pay-off frame to buckle the problem of deformation easily wholly when great along left and right directions width.

As a further improvement of the above technical solution, the bottom side of the elastic sleeve is provided with a slot, and the top side of the supporting piece is inserted into the slot. When the elastic sleeve is connected with the supporting piece, the supporting piece is inserted into the slot at the bottom side of the elastic sleeve, and when the elastic sleeve is required to be replaced after long-time use, the elastic sleeve is only required to be separated from the supporting piece upwards, and the elastic sleeve and the supporting piece can be disassembled and assembled quickly.

As a further improvement of the technical scheme, the top surface of the elastic sleeve is an arc surface arched upwards. The cambered surface that the elastic sleeve arched can reduce the area of contact with the work piece for the work piece is lighter when sliding relatively on the pay-off plane, improves the use experience.

As a further improvement of the above technical solution, a plurality of the supporting pieces are detachably connected to the material supporting frame respectively. After long-time use, when part of the support piece is required to be replaced, the support piece can be directly assembled and disassembled from the support frame without replacing the whole support frame, so that the use and maintenance cost is reduced.

As a further improvement of the technical scheme, two feeding frames are connected in the underframe in a sliding manner along the front-back direction, the two feeding frames are arranged in a staggered manner along the up-down direction, the two feeding frames are located above the material supporting frame, two translation drives are connected in the underframe, and the two translation drives respectively drive the two feeding frames to slide front and back. When the feeding frame is used, one feeding frame is positioned at the front part of the underframe, a workpiece is arranged on the feeding frame, the workpiece can be processed by an external laser cutting machine head, the other feeding frame is positioned at the rear part of the underframe, the feeding frame is positioned right above the supporting frame, the workpiece which is processed in the feeding frame can be subjected to blanking, the next workpiece to be processed is fed, after the workpiece positioned in front is processed, the two feeding frames are respectively provided with two translation driving drives to move, the front position and the rear position are interchanged, and because the two feeding frames are arranged in a staggered mode along the upper direction and the lower direction, the front position and the rear position of the two feeding frames are interchanged, the two feeding frames can not interfere with each other, and thus the whole processing efficiency can be improved.

As a further improvement of the above technical solution, the material supporting frame is slidably connected in the bottom frame along the up-down direction. The material supporting frame and the underframe are limited by sliding connection along the up-down direction, so that the stability of the material supporting frame during up-down movement can be improved.

As a further improvement of the technical scheme, two lifting drives are arranged in the underframe along the left-right direction, and the two lifting drives are respectively connected to the middle part of the material supporting frame. When the material supporting frame needs to be driven to move up and down, the two lifting drives apply force to the left side and the right side of the middle of the material supporting frame respectively, so that the stability of the material supporting frame during the up-and-down movement is further improved, and the phenomenon that the single side of the material supporting frame is inclined during the up-and-down movement is reduced.

As a further improvement of the above technical solution, the top side shape of the plurality of feeding sheets is saw-tooth shape. When a plurality of feeding sheets support the workpiece, the tips of the saw teeth formed on the top sides of the feeding sheets are propped against the bottom surface of the workpiece, and the contact area of the saw teeth on the top sides of the feeding sheets to the workpiece can be reduced, so that the laser projection area is reduced, and the damage to the feeding sheets is reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present utility model, the drawings that are required to be used in the description of the embodiments will be briefly described below. It is evident that the drawings described are only some embodiments of the utility model, but not all embodiments, and that other designs and drawings can be obtained from these drawings by a person skilled in the art without inventive effort.

FIG. 1 is an overall perspective view of the present utility model with a feeding frame attached to the chassis.

Fig. 2 is a perspective view of the stock holding mechanism of the present utility model.

FIG. 3 is an overall top view of the present utility model with two feeding frames connected within the chassis.

In the accompanying drawings: 100-underframe, 110-feeding frame, 111-feeding sheet, 112-connecting plate, 200-supporting mechanism, 210-lifting drive, 220-supporting frame, 231-supporting sheet, 232-elastic sleeve and 233-avoiding groove.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, a number means one or more, a number means two or more, and greater than, less than, exceeding, etc. are understood to not include the present number, and above, below, within, etc. are understood to include the present number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1 and 2, a feeding platform of a laser cutting machine comprises a chassis 100 and a material supporting mechanism 200, wherein a feeding frame 110 is connected inside the chassis 100, a plurality of feeding sheets 111 are arranged in the feeding frame 110 along the front-back direction, the top sides of the plurality of feeding sheets 111 jointly form a feeding plane, and a feeding gap is formed between any two adjacent feeding sheets 111; the material supporting mechanism 200 comprises a lifting drive 210, a material supporting frame 220 and buffer members, the lifting drive 210 is connected to the chassis 100, the lifting drive 210 is mainly used for providing driving force moving along the up-down direction, various structural forms are provided, such as an electric screw rod, an air cylinder or a hydraulic cylinder, the material supporting frame 220 is connected to the lifting drive 210, the buffer members are respectively arranged at positions, facing to the plurality of feeding gaps, on the material supporting frame 220, the lifting drive 210 can drive the material supporting frame 220 to move upwards and enable the plurality of buffer members to protrude out of the feeding plane, the lifting drive 210 can drive the material supporting frame 220 to move downwards and enable the plurality of buffer members to move downwards below the feeding plane, in practical application, the buffer members are arranged at positions, facing to each feeding gap, on the material supporting frame 220, or one buffer member is arranged at each feeding gap after a fixed number of gaps, such as one buffer member is arranged at each two feeding gaps.

According to the above, when the workpiece is required to be fed to the feeding frame 110, the lifting drive 210 drives the material supporting frame 220 to move upwards, so that the plurality of buffer pieces protrude upwards from the plurality of feeding gaps respectively to form a material supporting plane on the top side of the plurality of buffer pieces, the workpiece can be placed on the material supporting plane in advance, the buffer pieces play a role in buffering protection when the workpiece is placed, then the lifting drive 210 drives the material supporting frame 220 to move downwards, the plurality of buffer pieces can be placed on the feeding plane in the downward moving process respectively, the feeding of the workpiece can be completed by the supporting frame, and likewise, when the workpiece is required to be fed, the lifting drive 210 drives the material supporting frame 220 to move upwards, the plurality of buffer pieces are driven by the material supporting frame 220 to move upwards and lift the workpiece upwards to leave the feeding plane, the workpiece can be prevented from being scraped with the feeding plane when the workpiece is placed, after the workpiece is finished, the workpiece is scraped with the feeding plane, the workpiece can be placed by the lifting drive frame 220, or the workpiece can be scraped and the workpiece can be further placed on the feeding plane by the lifting drive frame 220, and the workpiece can be prevented from being damaged when the workpiece is placed on the feeding plane, and the workpiece is effectively placed on the feeding plane, and the workpiece is reduced when the workpiece is required to be fed by the feeding plane, and the workpiece is protected, and the workpiece is required to be fed by the workpiece to be placed on the feeding plane.

The buffer piece is mainly used for playing a buffering protection role when the workpiece is placed, and is not easy to scratch the workpiece, in this embodiment, the buffer piece comprises a supporting piece 231 extending along the left-right direction, an elastic sleeve 232 connected to the top side of the supporting piece 231, the elastic sleeve 232 can be made of elastic materials such as rubber and silica gel, and the bottom side of the supporting piece 231 is connected to the supporting frame 220. The support piece 231 is used for being connected to the support frame 220 and plays a main supporting and fixing role, the top side of the support piece 231 is connected with the elastic sleeve 232, and the elastic sleeve 232 can play a role in buffering and damping when the workpiece is placed on the support piece 231 and effectively reduce scratch damage to the workpiece.

In this embodiment, a plurality of connection plates 112 are arranged in the feeding frame 110 at intervals along the left-right direction, the plurality of connection plates 112 divide the feeding frame 110 into a plurality of feeding areas, each feeding area is internally provided with a plurality of feeding plates 111 along the front-rear direction, two sides of the feeding plate 111 are respectively connected to the two connection plates 112 for the feeding area positioned at the middle part, one side of the feeding plate 111 is connected to the frame of the feeding frame 110 for a long time, the other side of the feeding plate 111 is connected to one connection plate 112, the top side of the supporting plate 231 is opposite to the plurality of connection plates 112, grooves 233 are formed in the positions of the connection plates 112, and when the supporting frame 220 ascends, the top side of the supporting plate 231 avoids the grooves 233 from interfering with the two connection plates 112. When the width of the feeding frame 110 is greater, a plurality of connecting plates 112 are disposed in the feeding frame 110 along the left-right direction at intervals, and then a plurality of feeding sheets 111 are respectively connected between the inner side of the feeding frame 110 and the connecting plates 112 or between the two connecting plates 112, so that the plurality of feeding sheets 111 are disposed in the feeding frame 110 along the left-right direction, thereby enhancing the stability of the overall structure and effectively avoiding the problem that the whole feeding frame 110 is easy to bend and deform when the width of the feeding frame 110 is greater along the left-right direction.

When the workpiece and the elastic sleeve 232 rub against each other, the elastic sleeve 232 will be worn, so the elastic sleeve 232 and the supporting piece 231 may be detachably connected, specifically, the bottom side of the elastic sleeve 232 is provided with a slot, and the top side of the supporting piece 231 is inserted into the slot. When the elastic sleeve 232 is connected with the supporting piece 231, the supporting piece 231 is inserted into the slot at the bottom side of the elastic sleeve 232, and when the elastic sleeve 232 is required to be replaced after long-time use, the elastic sleeve 232 is only required to be separated from the supporting piece 231 upwards, and the elastic sleeve 232 and the supporting piece 231 can be quickly disassembled and assembled.

The top surface of the elastic sleeve 232 may be a plane, and the contact area with the workpiece is larger, which is difficult when the workpiece needs to slide on the supporting plane, so in this embodiment, the top surface of the elastic sleeve 232 is an arc surface that arches upwards. The arc surface arched by the elastic sleeve 232 can reduce the contact area with the workpiece, so that the workpiece can slide relatively on the feeding plane more easily, and the use experience is improved.

In the above embodiment, the plurality of supporting pieces 231 may be directly integrally formed on the supporting frame 220, and after long-term use, when a single supporting piece 231 is deformed and bent, the supporting pieces 231 and the supporting frame 220 may be designed to be detachable for reducing maintenance cost, specifically, the plurality of supporting pieces 231 may be detachably connected to the supporting frame 220, for example, the plurality of supporting pieces 231 may be connected to the supporting frame 220 by fastening, or the plurality of supporting pieces 231 may be fastened to the supporting frame 220 by fastening, for example, a screw or a bolt, etc., the plurality of supporting edges may be bent horizontally to form a downward flange, so that the downward flange may be attached to the supporting frame 220, and then the fastening, for example, a screw or a bolt, etc., may be fastened to the supporting frame 220. After long-time use, if part of the supporting pieces 231 need to be replaced, the supporting pieces 231 can be directly assembled and disassembled from the supporting frame 220, the whole supporting frame 220 does not need to be replaced, and the use and maintenance cost is reduced.

When the number of the feeding frames 110 is only one, if the workpiece needs to be subjected to feeding and discharging operations, the peripheral laser cutting machine head needs to be suspended, at this time, the overall production process is slower, and the overall efficiency is lower, so as to further improve the overall processing efficiency, as shown in fig. 3, in this embodiment, two feeding frames 110 are slidably connected in the front-back direction in the chassis 100, the two feeding frames 110 are arranged in a staggered manner in the up-down direction, the two feeding frames 110 are all located above the material supporting frame 220, two translation drives are connected in the chassis 100, the two translation drives respectively drive the two feeding frames 110 to slide back and forth, in practical application, the translation drives are mainly used for providing driving forces moving in the front-back direction, and various structural forms of the translation drives the two feeding frames 110, such as an electric screw, a cylinder or a hydraulic cylinder. When the feeding frame 110 is used, one feeding frame 110 is positioned at the front part of the underframe 100, a workpiece is arranged on the feeding frame 110, the workpiece can be processed by an external laser cutting machine head, the other feeding frame 110 is positioned at the rear part of the underframe 100, the feeding frame 110 is positioned right above the supporting frame 220, at the moment, the workpiece which is processed in the feeding frame 110 can be fed, the next workpiece to be processed is fed, after the workpiece positioned in front is processed, the two feeding frames 110 are respectively provided with two translational driving drives to move, the front position and the rear position are interchanged, and because the two feeding frames 110 are arranged in a staggered mode along the up-down direction, the front position and the rear position of the two feeding frames 110 are interchanged, the mutual interference is avoided, and the overall processing efficiency can be improved.

In the above embodiment, the material supporting frame 220 may be relatively positioned in the material supporting frame 220 only by means of the support of the lifting drive 210, in order to improve the stability of the movement of the material supporting frame 220, in this embodiment, the material supporting frame 220 is slidably connected in the bottom frame 100 along the up-down direction, for example, sliding rails may be disposed in the bottom frame 100, the sliding rails extend in the up-down direction, and four sliding rails are rectangular and arranged, that is, two sliding blocks are disposed on the left and right sides of the material supporting frame 220 respectively, and the four sliding blocks are disposed on the bottom frame 100 opposite to the four sliding rails and are slidably connected to the sliding rails respectively, so that the four sliding blocks can be slidably connected to the bottom frame 100 along the up-down direction. The material supporting frame 220 and the bottom frame 100 are limited by sliding connection along the up-down direction, so that the stability of the material supporting frame 220 during up-down movement can be improved.

In the above embodiment, only one lifting drive 210 may be provided, where the lifting drive 210 is mounted and fixed on the chassis 100 at a position directly opposite to the center of the material supporting frame 220, and in practical application, when the size of the material supporting frame 220 is large, it is difficult to ensure that the lifting drive 210 is located below the center of the material supporting frame 220, so in this embodiment, two lifting drives 210 are provided in the chassis 100 along the left-right direction, and two lifting drives 210 are respectively connected to the middle of the material supporting frame 220. When the material supporting frame 220 needs to be driven to move up and down, the two lifting drives 210 apply force to the left and right sides of the middle of the material supporting frame 220 respectively, so that the stability of the material supporting frame 220 during the up and down movement is further improved, and the phenomenon that one side of the material supporting frame 220 is inclined during the up and down movement is reduced.

In some embodiments, the top side of all the feeding sheets 111 has a zigzag shape, and the zigzag shape extends in the left-right direction. When the plurality of feeding sheets 111 support the workpiece, the tips of the saw teeth formed on the top sides of the feeding sheets 111 are propped against the bottom surface of the workpiece, and the contact area of the saw teeth on the top sides of the plurality of feeding sheets 111 to the workpiece can be reduced, so that the laser projection area is reduced, and the damage to the feeding sheets 111 is reduced.

While the preferred embodiments of the present utility model have been illustrated and described, the present utility model is not limited to the embodiments, and various equivalent modifications and substitutions can be made by one skilled in the art without departing from the spirit of the present utility model, and these are intended to be included in the scope of the present utility model as defined in the appended claims.

Claims (10)

1. A laser cutting machine feeding platform which characterized in that: comprising the following steps:

the feeding device comprises a bottom frame (100), wherein a feeding frame (110) is connected inside the bottom frame, a plurality of feeding sheets (111) are arranged in the feeding frame (110) along the front-back direction, the top sides of the plurality of feeding sheets (111) jointly form a feeding plane, and a feeding gap is reserved between any two adjacent feeding sheets (111);

the material supporting mechanism (200) comprises a lifting drive (210), a material supporting frame (220) and a buffer piece, wherein the lifting drive (210) is connected to the underframe (100), the material supporting frame (220) is connected to the lifting drive (210), the buffer piece is respectively arranged at the position, opposite to a plurality of feeding gaps, of the material supporting frame (220), the lifting drive (210) can drive the material supporting frame (220) to move upwards and enable a plurality of buffer pieces to protrude out of the feeding plane, and the lifting drive (210) can drive the material supporting frame (220) to move downwards and enable a plurality of buffer pieces to move downwards to the lower part of the feeding plane.

2. The laser cutting machine feed table of claim 1, wherein: the buffer piece comprises a supporting piece (231) extending along the left-right direction and an elastic sleeve (232) connected to the top side of the supporting piece (231), and the bottom side of the supporting piece (231) is connected to the material supporting frame (220).

3. A laser cutter feed table as claimed in claim 2, wherein: a plurality of connecting plates (112) are arranged in the feeding frame (110) at intervals along the left-right direction, the feeding frame (110) is divided into a plurality of feeding areas by the connecting plates (112), a plurality of feeding sheets (111) are arranged in each feeding area along the front-back direction, and avoidance grooves (233) are formed in positions, opposite to the connecting plates (112), of the top sides of the supporting sheets (231).

4. A laser cutter feed table as claimed in claim 2, wherein: the bottom side of the elastic sleeve (232) is provided with a slot, and the top side of the supporting piece (231) is inserted into the slot.

5. A laser cutter feed table as claimed in claim 2, wherein: the top surface of the elastic sleeve (232) is an arc surface which is arched upwards.

6. A laser cutter feed table as claimed in claim 2, wherein: the plurality of supporting sheets (231) are respectively and detachably connected to the material supporting frame (220).

7. The laser cutting machine feed table of claim 1, wherein: the feeding device is characterized in that two feeding frames (110) are connected in the underframe (100) in a sliding mode along the front-back direction, the two feeding frames (110) are arranged in a staggered mode along the up-down direction, the two feeding frames (110) are located above the material supporting frame (220), two translation drives are connected in the underframe (100), and the two translation drives drive the two feeding frames (110) to slide front and back respectively.

8. The laser cutting machine feed table of claim 1, wherein: the material supporting frame (220) is connected in the underframe (100) in a sliding way along the up-down direction.

9. The laser cutting machine feed table of claim 7, wherein: two lifting drives (210) are arranged in the underframe (100) along the left-right direction, and the two lifting drives (210) are respectively connected to the middle part of the material supporting frame (220).

10. The laser cutting machine feed table of claim 1, wherein: the top side of the feeding sheets (111) is zigzag.