CN211564846U - Multi-sheet card marking apparatus - Google Patents

Abstract

The utility model provides a multi-piece card marking device, which comprises a body, two material grabbing components, a laser component and a material transmission component; be provided with table surface on the body, the last material loading station that has of table surface, laser marking station and unloading station, two materials snatch the subassembly and all install on table surface, and two materials snatch the subassembly and are located material loading station and unloading station respectively, laser assembly installs on table surface, and laser assembly is located laser marking station, material transmission subassembly installs on table surface, in order to transmit the material to material station, laser marking station and unloading station in proper order. Automatic feeding and discharging are realized through the material grabbing component, so that automatic grabbing of materials is realized, and labor cost is saved; and the materials are transmitted to the laser marking station through the material transmission assembly so as to realize automatic laser marking, thereby improving the laser marking efficiency.

Description

Multi-sheet card marking apparatus

Technical Field

The utility model relates to a laser technical field, in particular to multi-disc formula card marking device.

Background

With the continuous progress of laser processing technology, the application field of the laser is continuously expanded. In recent years, when laser marking is carried out on a multi-chip IC card, the multi-chip IC card is generally transmitted to a certain area through a conveying device for collection, a traditional material collection mode is that materials are generally picked from the conveying device manually and then put into corresponding stations, after long-time work, artificial fatigue is easily caused, a large amount of manpower is required to be consumed, and the laser marking efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a multi-disc formula card marking device aims at using manpower sparingly the cost and improving laser marking efficiency.

In order to achieve the above object, the utility model provides a multi-disc formula card marking device, multi-disc formula card marking device includes:

the laser marking device comprises a body, wherein a working table is arranged on the body, and a feeding station, a laser marking station and a discharging station are arranged on the working table;

the two material grabbing components are arranged on the working table surface and are respectively positioned at the feeding station and the discharging station;

the laser assembly is arranged on the working table surface and is positioned at the laser marking station;

the material conveying component is arranged on the working table surface and used for conveying materials to the loading station, the laser marking station and the unloading station in sequence.

Further, the material grabbing component comprises:

a base plate;

the first power part is connected to the bottom plate;

the switching assembly is movably connected to the bottom plate, and an output shaft of the first power part is connected with the switching assembly;

the material clamping component comprises a material clamping seat and a second power part, an induction part and a plurality of material clamping claws, wherein the second power part, the induction part and the plurality of material clamping claws are connected with the material clamping seat, the material clamping seat is connected with one side, deviating from the first power part, of the switching component, the induction part is electrically connected with the second power part, and the second power part is in driving connection with the material clamping claws to drive the material clamping claws to grab materials.

Further, the second power part still includes power portion, mounting panel and drive shaft, the mounting panel install in on the power portion, just the mounting panel deviates from one side processing of power portion has the spout, the one end sliding connection of drive shaft in the spout, the other end of drive shaft with press from both sides the material claw butt.

Furthermore, the clamping claw comprises a fixing part, a clamping claw piece and an elastic piece, the fixing part is connected to the clamping seat, the clamping claw piece is rotatably connected to the fixing part through a bolt, an avoiding groove is formed in the fixing part, and the driving shaft penetrates through the avoiding groove and is abutted to the clamping claw piece; the elastic piece is arranged between the clamping claw piece and the fixing piece.

Further, the subassembly is grabbed to material still includes:

a support plate;

the portal frame is arranged on the supporting plate;

the moving assembly is arranged on the portal frame, and the bottom plate is movably connected to the moving assembly;

the material box placing plate is connected to the supporting plate and is used for placing material boxes so that the material clamping assembly can take out materials in the material boxes;

the ejection component penetrates through the material box placing plate and is positioned at the bottom of the material box so as to eject the material from the bottom of the material box towards the direction of the material clamping component.

Further, the material transmission assembly comprises a first transmission rail, a second transmission rail and a driving device, the first transmission rail and the second transmission rail are arranged in parallel, materials are placed between the first transmission rail and the second transmission rail, and a driving shaft of the driving device is connected with the first transmission rail so as to drive the materials to be transmitted on the first transmission rail.

Furthermore, the material transmission assembly further comprises induction pieces, wherein the induction pieces are arranged on the first transmission track at intervals so as to induce the transmission position of the material on the first transmission track.

Furthermore, the material conveying assembly further comprises an adjusting piece, and the adjusting piece is arranged on the first conveying track to adjust the distance between the first conveying track and the second conveying track.

Further, the material conveying assembly further comprises a smoke exhaust port arranged on the first conveying track.

Further, laser subassembly includes mount pad and double-end laser head, the mount pad install in table surface is last, just double-end laser head install in on the mount pad.

The utility model provides a multi-piece card marking device, which comprises a body, two material grabbing components, a laser component and a material transmission component; the laser material grabbing device comprises a body, and is characterized in that a working table top is arranged on the body, a feeding station, a laser marking station and a discharging station are arranged on the working table top, two material grabbing components are arranged on the working table top and are respectively positioned on the feeding station and the discharging station, a laser component is arranged on the working table top and is positioned on the laser marking station, and a material transmission component is arranged on the working table top and is used for sequentially transmitting materials to the feeding station, the laser marking station and the discharging station. Automatic feeding and discharging are realized through the material grabbing component, so that automatic grabbing of materials is realized, and labor cost is saved; and the materials are conveyed to the laser marking station through the material conveying assembly so as to realize automatic laser marking, so that the laser marking efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments or examples of the present invention, the drawings used in the embodiments or examples will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a multi-sheet card marking apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a material grabbing component according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a part of a material gripping assembly according to an embodiment of the present invention;

fig. 4 is another schematic structural diagram of a material grabbing assembly according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a material conveying assembly according to an embodiment of the present invention.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly 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 addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1-4, the utility model provides a multi-piece card marking device.

In one embodiment, as shown in fig. 1, the multi-sheet card marking apparatus includes a body 1, two material grasping assemblies 2, a laser assembly 3, and a material transport assembly 4; the laser processing device is characterized in that a working table top 11 is arranged on the body 1, a feeding station 12, a laser marking station 13 and a discharging station 14 are arranged on the working table top 11, two material grabbing components 2 are arranged on the working table top 11, the two material grabbing components 2 are respectively located on the feeding station 12 and the discharging station 14, the laser component 3 is arranged on the working table top 11, and the laser component 3 is located on the laser marking station 13. The material grabbing component 2 is provided with two components, wherein one component 2 is arranged at the feeding station 12, so that the material grabbing component 2 grabs the material and conveys the material to the feeding station 12, and the feeding operation is completed. And the other material grabbing component 2 is arranged at the blanking station, so that the material grabbing component 2 grabs the laser marked material and conveys the material to the blanking station 14, and the blanking operation is completed.

Further, the laser assembly 3 is arranged at a laser marking station 13 and is used for laser marking the material on the laser marking station 13. Wherein the material is located in the laser marking station 13 and within the laser range of the laser assembly 3.

Further, the material conveying component 4 is installed on the working table 11 to convey materials to the feeding station 12, the laser marking station 13 and the discharging station 14 in sequence. Namely, the material conveying assembly 4 is used for conveying materials, so that the materials are positioned at the corresponding stations to perform corresponding operations.

In the embodiment of the present invention, the multi-piece card marking device includes a body 1, two material grabbing components 2, a laser component 3, and a material conveying component 4; the body 1 is provided with a working table 11, the working table 11 is provided with a feeding station 12, a laser marking station 13 and a discharging station 14, two material grabbing components 2 are arranged on the working table 11, the two material grabbing components 2 are respectively positioned on the feeding station 12 and the discharging station 14, the laser component 3 is arranged on the working table 11, the laser component 3 is positioned on the laser marking station 13, the material transmission component 4 is arranged on the working table 11 to sequentially transmit materials to the feeding station 12, the laser marking station 13 and the discharging station 14, namely, the material grabbing components 2 are used for realizing automatic feeding and discharging, so that the materials are automatically grabbed, and the labor cost is saved; and the materials are conveyed to the laser marking station through the material conveying assembly 4 so as to realize automatic laser marking, thereby improving the laser marking efficiency.

Further, as shown in fig. 2 and 3, the material grabbing assembly 2 comprises a bottom plate 21, a first power member 22, an adapter assembly 23 and a material clamping assembly 24; the first power member 22 is connected to the bottom plate 21, the adapter assembly 23 is movably connected to the bottom plate 21, and an output shaft of the first power member 22 is connected to the adapter assembly 23. The base plate 21 is installed on the laser device, and as the first power member 22, the adapter assembly 23 and the clamping assembly 24 are supported, the first power member 22 is used for driving the clamping assembly 24 to move along the direction of the moving shaft of the first power member 22, so that the clamping assembly 24 moves towards or away from the material and clamps the material. The adapter assembly 23 is an adapter device between the clamping assembly 24 and the first power member 22, that is, the first power member 22 transmits power to the adapter assembly 23, and the adapter assembly 23 transmits power to the clamping assembly 24, so as to control the clamping assembly 24 to move. Alternatively, the first power member 22 is a height adjustable cylinder.

Further, referring to fig. 3, the clamping assembly 24 includes a clamping base 241, a second power member 242 connected to the clamping base 241, a sensing member 243 and a plurality of clamping claws 244, the clamping base 241 is connected to a side of the adapting assembly 23 away from the first power member 22, the sensing member 243 is electrically connected to the second power member 242, and the second power member 242 is drivingly connected to the clamping claws 244 to drive the clamping claws 244 to grab the material.

Further, the sensing member 243 is used for sensing whether the clamping assembly 24 moves to the material placing position, when the clamping assembly moves to the material placing position, the sensing member 243 sends a control command to the second power member 242, and after the second power member 242 receives the control command, the clamping claw 244 is driven to grab the material.

Further, the second power element 242 includes a power portion 2421, a mounting plate 2422 and a driving shaft 2423, the mounting plate 2422 is mounted on the power portion 2421, a sliding slot (not shown) is formed in a side of the mounting plate 2422 facing away from the power portion 2421, one end of the driving shaft 2423 is slidably connected to the sliding slot, and the other end of the driving shaft 2423 abuts against the clamping claw 244. The power part 2421 is a driving device such as a motor or an air cylinder, and the power part 2421 drives the driving shaft 2423 to move so as to drive the material clamping claw 244 to move.

Further, the clamping claw 244 includes a fixing member 2441 and a clamping claw member 2442, the fixing member 2441 is connected to the clamping base 241, the clamping claw member 2442 is connected to the fixing member 2441 through a bolt, an avoiding groove is provided on the fixing member 2441, and the driving shaft 2423 passes through the avoiding groove and abuts against the clamping claw member 2442. When the material clamping claw 244 clamps the material, the clamping claw member 2442 can be in an open state under the driving of the driving shaft 2423, and the sensing member 243 senses whether the material placement position is reached, when the material placement position is reached, the driving shaft 2423 moves towards the outer side of the material clamping claw 244, at this time, the abutting force of the material clamping claw 244 on the driving shaft 2423 is reduced, at this time, the material clamping claw 244 slowly returns to the initial position, that is, at this time, the material clamping claw 244 is in a clamping state to clamp the material.

Specifically, in order to slowly return the material clamping claw 244 to the initial position, the material clamping claw 244 further includes an elastic member (not shown) disposed between the claw member 2442 and the fixing member 2441. When the clamping jaw member 2442 is in an open state under the driving of the driving shaft 2423, the elastic member is stretched; when the driving shaft 2423 moves towards the outer side of the clamping claw 244, the abutting force of the clamping claw 244 against the driving shaft 2423 is reduced, and at this time, the elastic element returns to the original state from the stretching state, i.e. the clamping claw 244 is driven to slowly return to the original position.

Optionally, the resilient member is a compression spring.

Further, in order to clamp the material by the jaw members 2442, the jaw 442 is provided with external threads to allow the material to contact the threads of the jaw 442 when the material is gripped, thereby preventing the material from falling off during the gripping movement.

Further, in order to ensure the stability of the material clamping claws 244 when clamping the material, the number of the material clamping claws 244 is at least four, that is, at least two first material clamping claws and at least two second material clamping claws are arranged, the at least two first material clamping claws are arranged on one side of the material, the at least two second material clamping claws are arranged on the other side of the material, that is, the material can be clamped from two sides of the material by the at least four material clamping claws, so that the material is prevented from falling off. It can be understood that all the first clamping claws move in the same direction, all the second clamping claws move in the same direction, and the moving direction of the first clamping claws is opposite to that of the second clamping claws.

Further, each of the gripping claws 244 is controlled by a power part 2421 and a driving shaft 2423. In this embodiment, the number of the first material clamping claws is two, and the number of the second material clamping claws is two.

Further, the sensing member 243 includes a sensing rod 2431, the material grabbing assembly includes a lower pressing plate 5, the lower pressing plate 5 is connected to a side of the material clamping seat 241 facing away from the switching assembly 23, and the sensing rod 2431 penetrates through the lower pressing plate 5 and extends toward the material placing position. The lower pressing plate 5 is used for pressing materials to ensure the levelness of the materials, and the material clamping assembly 24 is convenient to clamp the materials and perform subsequent processing operation on the materials.

Further, referring to fig. 2, the material grabbing component 2 further includes a support plate 25, a portal frame 26, a moving component 27, a material box placing plate 28 and an ejecting component 29, the portal frame 26 is disposed on the support plate 25, the moving component 27 is disposed on the portal frame 26, and the bottom plate 21 is movably connected to the moving component 27; the material box placing plate 28 is connected to the supporting plate 25, and a material box is placed on the material box placing plate 28 so that the material clamping assembly 24 can take out materials in the material box; the ejector assembly 29 penetrates through the material box placing plate 28 and is located at the bottom of the material box so as to eject the material from the bottom of the material box towards the direction of the material clamping assembly 24.

Further, the moving assembly 27 includes an X-direction moving assembly and a Y-direction moving assembly, the X-direction moving assembly is disposed on the gantry 26, and the Y-direction moving assembly is movably connected to the X-direction moving assembly, that is, the bottom plate 21 is movably connected to the Y-direction moving assembly, so that the bottom plate 21 can move in the X direction and the Y direction to drive the material clamping assembly 24 to move in the X direction and the Y direction, thereby realizing the material taking operation.

Further, as shown in fig. 5, the material conveying assembly 4 includes a first conveying track 41, a second conveying track 42, and a driving device 43, the first conveying track 41 and the second conveying track 42 are arranged in parallel, the material is placed between the first conveying track 41 and the second conveying track 42, and a driving shaft of the driving device 43 is connected with the first conveying track 41 to drive the material to be conveyed on the first conveying track 41. The material conveying assembly 4 further includes a transition track 44 disposed in a middle area between the first conveying track 41 and the second conveying track 42, and the transition track 44 is used for supporting a middle portion of the material to prevent the material from falling off from the first conveying track 41 and the second conveying track 42 during conveying.

Further, the driving device 43 drives the first conveying track 41 to move, so as to drive the material on the first conveying track 41 to move, thereby realizing the conveying of the material. Optionally, in order to obtain the position of the material on the first conveying track 41, the material conveying assembly 4 of this embodiment further includes sensing members 45, and the sensing members 45 are disposed on the first conveying track 41 at intervals to sense the conveying position of the material on the first conveying track 41. Since the materials are not required to stop other operations when being at the loading station 12 and the unloading station 14, the materials only need to be conveyed all the time. When the materials are conveyed to the laser marking station 13, the materials need to stop moving to mark the materials, that is, the sensing piece 45 is arranged on the first conveying track 41 corresponding to the laser marking station 13, so that when the materials are sensed to come, the sensing piece 45 sends a control instruction to the driving device 43 to stop the driving device 43 from driving, that is, the materials are stopped from being conveyed, and the materials are marked through the laser assembly 3.

Further, referring to fig. 1, the laser assembly 3 includes a mounting seat 31 and a double-head laser head 32, the mounting seat 31 is installed on the working table 11, and the double-head laser head 32 is installed on the mounting seat 31, that is, in the embodiment, the double-head laser head 32 is adopted to perform laser marking on the material at the laser marking station 13, so as to increase the laser marking area, thereby improving the laser marking efficiency.

Further, as shown in fig. 5, the material conveying assembly 4 further includes two adjusting members 46, and the two adjusting members 46 are respectively installed on the first conveying track 41 and the first conveying track 42 to adjust a distance between the first conveying track 41 and the second conveying track 42, so that the multi-piece card marking apparatus is adapted to materials with various sizes, thereby increasing the versatility of the multi-piece card marking apparatus.

Further, the material conveying assembly 4 further comprises a smoke exhaust port 47 arranged on the first conveying track 41 and the first conveying track 42, and the smoke exhaust port 47 is arranged at the laser marking station 13 and used for exhausting smoke generated in the laser marking process so as to ensure that the subsequent material is subjected to laser marking operation.

In the embodiment of the present invention, the multi-piece card marking device includes a body 1, two material grabbing components 2, a laser component 3, and a material conveying component 4; the body 1 is provided with a working table 11, the working table 11 is provided with a feeding station 12, a laser marking station 13 and a discharging station 14, two material grabbing components 2 are arranged on the working table 11, the two material grabbing components 2 are respectively positioned on the feeding station 12 and the discharging station 14, the laser component 3 is arranged on the working table 11, the laser component 3 is positioned on the laser marking station 13, the material transmission component 4 is arranged on the working table 11 to sequentially transmit materials to the feeding station 12, the laser marking station 13 and the discharging station 14, namely, the material grabbing components 2 are used for realizing automatic feeding and discharging, so that the materials are automatically grabbed, and the labor cost is saved; and the materials are conveyed to the laser marking station through the material conveying assembly 4 so as to realize automatic laser marking, thereby improving the laser marking efficiency.

The above is only the optional embodiment of the present invention, and not therefore the limit to the patent scope of the present invention, all the concepts of the present invention utilize the equivalent transformation made by the contents of the specification and the drawings, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A multi-sheet card marking apparatus, comprising:

the laser marking device comprises a body, wherein a working table is arranged on the body, and a feeding station, a laser marking station and a discharging station are arranged on the working table;

the two material grabbing components are arranged on the working table surface and are respectively positioned at the feeding station and the discharging station;

the laser assembly is arranged on the working table surface and is positioned at the laser marking station;

the material conveying component is arranged on the working table surface and used for conveying materials to the loading station, the laser marking station and the unloading station in sequence.

2. The multi-sheet card marking apparatus of claim 1, wherein the material grasping assembly comprises:

a base plate;

the first power part is connected to the bottom plate;

the switching assembly is movably connected to the bottom plate, and an output shaft of the first power part is connected with the switching assembly;

the material clamping component comprises a material clamping seat and a second power part, an induction part and a plurality of material clamping claws, wherein the second power part, the induction part and the plurality of material clamping claws are connected with the material clamping seat, the material clamping seat is connected with one side, deviating from the first power part, of the switching component, the induction part is electrically connected with the second power part, and the second power part is in driving connection with the material clamping claws to drive the material clamping claws to grab materials.

3. The multi-sheet card marking apparatus of claim 2, wherein the second power member further comprises a power portion, a mounting plate, and a drive shaft, the mounting plate is mounted on the power portion, and a chute is formed in a side of the mounting plate facing away from the power portion, one end of the drive shaft is slidably connected to the chute, and the other end of the drive shaft abuts against the clamping claw.

4. The multi-sheet card marking apparatus according to claim 3, wherein the clamping claw includes a fixing member, a claw member, and an elastic member, the fixing member is connected to the clamping base, the claw member is rotatably connected to the fixing member by a bolt, and the fixing member is provided with an avoiding groove through which the driving shaft passes to abut against the clamping claw; the elastic piece is arranged between the clamping claw piece and the fixing piece.

5. The multi-sheet card marking apparatus of claim 2, wherein the material grasping assembly further comprises:

a support plate;

the portal frame is arranged on the supporting plate;

the moving assembly is arranged on the portal frame, and the bottom plate is movably connected to the moving assembly;

the material box placing plate is connected to the supporting plate and is used for placing material boxes so that the material clamping assembly can take out materials in the material boxes;

the ejection component penetrates through the material box placing plate and is positioned at the bottom of the material box so as to eject the material from the bottom of the material box towards the direction of the material clamping component.

6. The multi-sheet card marking apparatus of claim 1, wherein the material transport assembly includes a first transport track, a second transport track, and a drive device, the first transport track being disposed parallel to the second transport track and the material being disposed between the first transport track and the second transport track, a drive shaft of the drive device being coupled to the first transport track to drive the material for transport on the first transport track.

7. The multi-sheet card marking apparatus of claim 6, wherein the material transport assembly further comprises sensing members spaced on the first transport track to sense a transport position of material on the first transport track.

8. The multi-sheet card marking apparatus of claim 6, wherein the material transport assembly further comprises an adjustment member mounted on the first transport track to adjust a distance between the first transport track and the second transport track.

9. The multi-sheet card marking apparatus of claim 6, wherein the material transport assembly further comprises a smoke evacuation port disposed on the first transport track.

10. The multi-sheet card marking apparatus of claim 1 wherein the laser assembly comprises a mount and a double-head laser head, the mount being mounted on the table top and the double-head laser head being mounted on the mount.

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