CN216507484U - Desktop type marking system - Google Patents

Abstract

The utility model discloses a desktop type marking system, which aims to solve the technical problems that in the prior art, a material belt is fed and marked quickly and stably, automatic material receiving and discharging is realized, accurate processing of coil products is realized, and the waste of packing materials in the marking process is reduced. This mark system of beating includes the frame, set up in the frame upside is used for placing the receipts in material area unreel the module, set up in unreel the module left side and be used for the laser marking mark the module, set up in mark the module left side be used for the rolling in rolling material area the rolling module, set up in the rolling module with mark the cutter that is used for cutting the material area between the module receives the material module, set up in mark the control module that the module front side is used for controlling entire system. This beat mark system can carry out steady transportation to the material area through unreeling the setting of module and rolling module, avoids the material area to appear blocking in the in-process of transportation to realize the accurate processing of coil stock product, reduce the waste of package material.

Description

Desktop type marking system

Technical Field

The utility model belongs to the technical field of laser processing and automation, and particularly relates to a desktop type marking system and an automatic speed-regulating material receiving and discharging device.

Background

Aiming at realizing rapid processing of a coil material product in production and processing, processing steps can be reduced, and processing time effectiveness is saved. At present, the coil packaging material is mainly used for food and medicine, the processing of the equipment is not limited to the field, and the equipment can adapt to all coil products, and the coil products have the advantages of thickness, softness and smoothness. If the material receiving and discharging is unstable, the feeding is easy to deviate and fold to cause poor processing, thereby leading to the waste of packing materials. The traditional processing method has high related efficiency and poor processing of products, so related processes need to be improved, and the processing process is not limited to marking marks such as product three-phase codes, product serial numbers, anti-counterfeiting codes, graphic pattern processing and the like.

At present, the utility model with the patent number CN202110613820.8 discloses a multifunctional dynamic focusing desktop marking machine, which comprises a laser marking box, a dynamic focusing marking head, an optical fiber collimator and a clamp assembly, wherein the dynamic focusing marking head and the optical fiber collimator are integrally installed on a lifting mechanism, the optical fiber collimator is vertically installed at the rear side of the dynamic focusing marking head relative to the dynamic focusing marking head, a reflective optical path assembly for communicating an optical path is arranged between the dynamic focusing marking head and the optical fiber collimator, an exhaust mechanism for exhausting air to the clamp assembly is arranged in the laser marking box, the clamp assembly is provided with a rotating mechanism for driving a marked article to perform angle adjustment, and an air exhaust port of the exhaust mechanism is adjustable corresponding to the rotating position and the angle direction of the clamp assembly; the utility model can be matched with the clamp assembly to carry out dynamic focusing marking action, has higher efficiency and can efficiently discharge harmful gas. But this application scheme can't carry out the pay-off steadily to the material area, can not receive the material automatically moreover, can not realize the accurate processing of coil stock product, leads to the waste of package material can appear in the in-process of beating the mark.

Therefore, to solve the problem that the marking system cannot smoothly feed the material tape, it is necessary to improve the use scenario of the marking system.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

Aiming at the defects of the prior art, the utility model aims to provide a desktop type marking system, which aims to solve the technical problems that the material belt cannot be fed quickly and stably, the material cannot be automatically received, and the precise processing of a coil material product cannot be realized, so that the waste of packing materials can be caused in the marking process.

(2) Technical scheme

In order to solve the technical problem, the utility model provides a desktop type marking system which comprises a rack, an unreeling module, a marking module, a winding module, a cutter receiving module and a control module, wherein the unreeling module is arranged on the upper side of the rack and used for placing a material belt, the marking module is arranged on the left side of the unreeling module and used for laser marking, the winding module is arranged on the left side of the marking module and used for winding the material belt, the cutter receiving module is arranged between the winding module and the marking module and used for cutting the material belt, and the control module is arranged on the front side of the marking module and used for controlling the whole system; the winding module is detachably mounted on the left side of the rack, and a negative pressure chamber used for being connected with the marking module is arranged on the inner side of the rack.

When the marking system in the technical scheme is used, the unreeling module is firstly disassembled, the material belt is fixed on the unreeling module, then the whole equipment is opened through the control module, the unreeling module conveys the material belt to the marking module, so that the marking module marks the material belt, after the marking is finished, the material belt is coiled through the reeling module, when the material belt is coiled to a certain position, the cutter material collecting module cuts the material belt, after the marking is finished, the equipment is closed through the control module, then the reeling module is disassembled to take out the material belt, and then the reeling module is installed on the rack again; through control module's setting, can realize complete machine equipment coordinated control, equipment starts and realizes complete machine self-checking, thereby detect the state of every module, through the setting of unreeling module and rolling module, can carry out steady transportation to the material area, avoid the material area to appear blocking in the in-process of transportation, thereby realize the accurate processing of coil stock product, reduce the harmfulness of coil stock processing, further reduce the waste of package material, also can realize simultaneously that quick coil stock processing is received material or coil stock label and is converted into the piece unloading.

Preferably, the unreeling module comprises an unreeling disc, a movable cover plate used for fixing is arranged on the front side of the unreeling disc, a first guide roller used for guiding is arranged on the left side of the unreeling disc, a second guide roller is arranged on the left side of the first guide roller, a first buffer roller used for buffering a material belt is arranged on the inner side of the first guide roller and the inner side of the second guide roller, and a power unreeling mechanism used for unreeling is arranged on the rear side of the unreeling disc. The automatic unwinding device is characterized in that the unwinding disc is locked through the movable cover plate after being filled with an unwinding material roll, the unwinding disc is driven to unwind through the servo power unwinding mechanism, stable accuracy and flexible braking performance of the unwinding mechanism are guaranteed, unwinding tension control is convenient to achieve, unwinding stability is achieved, the position of the unwinding material belt can be better controlled, feeding positioning accuracy is improved, waste of the material roll is reduced, the first guide roller, the second guide roller and the first buffer roller comprise the axial limiting ring and the roller body, the axial limiting ring is arranged on the roller body and used for adjusting the deviation limiting adjustment of the material belt in the vertical direction and the moving direction, the synchronizer is arranged on the second guide roller in the fixed position, and the speed of marking products is fed back.

Further, the mark module of carving includes that the mark workstation is beaten to the negative pressure, the mark workstation upside is beaten to the negative pressure is equipped with the orifice plate that is used for supporting the material area, evenly distributed's hole is seted up on the orifice plate surface, the mark workstation rear side is beaten to the negative pressure is equipped with the smoking mechanism that is used for adsorbing the material area, smoking mechanism with the negative pressure cavity passes through pipeline interconnect and is in the same place. The laser machine light path is adjusted out suitable focus through high adjustment mechanism and is beaten mark etc. to the coil stock product of different materials to get rid of through the smoking mechanism of the cover that induced drafts in the side area and beat the produced smoke and dust of mark, the orifice plate is induced drafted from last through the biax flow fan in the negative pressure cavity, forms the negative pressure, thereby adsorbs the material area when beating the mark, and cooperates the material area to take main power actuating mechanism, keeps leveling, can carry the material area to beat mark device better and beat the mark.

Furthermore, the orifice plate upside is equipped with the laser machine light path that is used for beating the mark, laser machine light path upside is equipped with the height control mechanism who is used for height-adjusting, the smoking mechanism downside is equipped with and is used for driven main power actuating mechanism, main power actuating mechanism upside is equipped with the cam pressing mechanism who is used for the ejection of compact with higher speed. The main power driving mechanism drives the driving roller through a servo speed reducing motor and a synchronous wheel in a transmission mode, the driving roller is matched with the cam pressing mechanism to drive the material belt to move, the servo motor drives a front end (the other outer side of a marking workbench) speed doubling compression roller in the moving direction through a round belt pulley in speed doubling proportion on the back face and drives the material belt to move forwards in speed doubling mode through the cam pressing mechanism, meanwhile, the material belt of the main power driving mechanism between the speed doubling compression rollers is guaranteed to keep certain tension, the surface of the marked material belt is enabled to be smoother, meanwhile, due to the fact that speed difference exists between rollers driven by the main power driving mechanism, the friction slip phenomenon can be allowed to exist between the round belt and the belt pulley, flexibility among the rollers is kept, the material belt is prevented from being broken due to tension overload, working continuity is guaranteed, the cam pressing mechanism is a roller shaft which is fixed on a side plate and can rotate around the roller shaft through the wheel pressing frame, the roller which can float at the other end is limited in a vertical groove type roller shaft on the side plate relative to a first fixed roller shaft The floating end is tensioned downwards through a spring so as to be pressed with the main power driving mechanism and the accelerated discharging mechanism, and meanwhile, the tension between the main power driving mechanism and the cam pressing mechanism is also kept.

Furthermore, the cutter material receiving module comprises a lifting cylinder, a cutter used for cutting the material belt is arranged on the lower side of the lifting cylinder, and an elastic jacking mechanism used for jacking the cutter is arranged on the right side of the cutter. The cutter material receiving module is driven by the duplex cylinder to press down by the cutter, meanwhile, the side elastic jacking mechanism is matched to cut off the material belt, the elastic jacking mechanism pushes the tight cutter bottom plate in the direction of the cutter to slice or cut the material belt, a certain inclination angle is formed in the direction of the cutter cut, and force can be guaranteed to cut in the material belt from the side direction, so that the cutting is more sufficient.

Furthermore, the winding module comprises a driving box, a supporting plate used for being connected with the rack is arranged on the lower side of the driving box, a material receiving plate used for receiving materials is arranged on the front side of the driving box, and a second cover plate used for being detached is arranged on the front side of the material receiving plate. The winding module drives the winding through the power winding mechanism with the servo, so that the stability and the accuracy and the flexible braking performance of the winding mechanism are guaranteed, the winding tension is controlled conveniently, and the winding stability is realized.

Furthermore, a third guide roller is arranged on the right side of the material receiving tray, a fourth guide roller is arranged on the right side of the third guide roller, and a second buffer roller for buffering acting force is arranged on the inner sides of the third guide roller and the fourth guide roller. The third material guide roller, the fourth material guide roller and the buffer roller comprise axial limiting rings and a roller body, the axial limiting rings are arranged on the roller body and used for adjusting the deviation limiting adjustment of the vertical direction and the moving direction of a coil material belt, the tension of the coil material can be balanced through the self gravity of the second buffer roller and the first buffer roller, the third material guide roller, the fourth material guide roller and the buffer roller slide on a vertical guide rod through a fixed block fixed with a linear bearing, the relative height change between induction points of two limit position proximity switch sensors in the vertical direction is adjusted through self weight, and the third material guide roller, the fourth material guide roller and the buffer roller feed back to a winding module and an unwinding module and control the starting, stopping and speed of the winding module and the unwinding module.

Furthermore, the control module comprises a keyboard, a mouse matched with the keyboard is arranged on the right side of the keyboard, and a display screen for observation is arranged on the upper side of the rack. The automatic speed regulation device has the advantages that the linkage control of the whole machine equipment can be realized, the whole machine self-checking is realized by starting the equipment, the state of each device is detected, the codes and the actual world distance scale can be calculated through the counting of the encoders according to the corresponding processing specifications, when the sensors sense the start of the product, the movement distance of the product starts to be recorded, the motor automatically matches the speed regulation, the product stably moves, and the corresponding station is reached to execute the corresponding action.

(3) Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that: according to the marking system, the linkage control of the whole machine equipment can be realized through the arrangement of the control module, the equipment is started to realize the self-checking of the whole machine, so that the state of each module is detected, the material belt can be stably transported through the arrangement of the unreeling module and the reeling module, the phenomenon that the material belt is blocked in the transportation process is avoided, the accurate processing of a coil material product is realized, the bad processing of the coil material is reduced, the waste of a wrapping material is further reduced, and meanwhile, the quick coil material processing and receiving or the conversion of coil material labels into sheet blanking can be realized.

Drawings

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

FIG. 1 is a schematic structural view of one embodiment of the marking system of the present invention;

FIG. 2 is an elevation view of one embodiment of the marking system of the present invention;

FIG. 3 is a schematic view of another angle of an embodiment of the marking system of the present invention;

FIG. 4 is a rear view of one embodiment of the marking system of the present invention;

fig. 5 is a schematic structural diagram of a control module in an embodiment of the marking system of the present invention.

The labels in the figures are: 1. a frame; 2. an unwinding module; 3. a marking module; 4. a winding module; 5. a cutter material receiving module; 6. a control module; 7. placing the reel; 8. a removable cover plate; 9. a first guide roller; 10. a power unwinding mechanism; 11. a second guide roller; 12. a first buffer roller; 13. a height adjustment mechanism; 14. a laser machine optical path; 15. a smoking mechanism; 16. a negative pressure chamber; 17. a negative pressure marking workbench; 18. an orifice plate; 19. a cam press-fit mechanism; 20. a main power drive mechanism; 21. a lifting cylinder; 22. a cutter; 23. an elastic jacking mechanism; 24. a material receiving disc; 25. a second cover plate; 26. a third guide roller; 27. a fourth guide roller; 28. a second buffer roller; 29. a display screen; 30. a support plate; 31. a drive box; 32. a mouse; 33. a keyboard.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the utility model easily understood and obvious, the technical solutions in the embodiments of the present invention are clearly and completely described below to further illustrate the utility model, and obviously, the described embodiments are only a part of the embodiments of the present invention, but not all the embodiments.

Example 1

The specific embodiment is a desktop marking system, a schematic structural diagram of which is shown in fig. 1, a front view of which is shown in fig. 2, a schematic structural diagram of which at another angle is shown in fig. 3, a rear view of which is shown in fig. 4, and a schematic structural diagram of a control module of which is shown in fig. 5, wherein the marking system comprises a rack 1, an unwinding module 2 arranged on the upper side of the rack 1 and used for placing a material tape, a marking module 3 arranged on the left side of the unwinding module 2 and used for laser marking, a winding module 4 arranged on the left side of the marking module 3 and used for winding the material tape, a cutter receiving module 5 arranged between the winding module 4 and the marking module 3 and used for cutting the material tape, and a control module 6 arranged on the front side of the marking module 3 and used for controlling the whole system; the winding module 4 is detachably arranged on the left side of the frame 1, and a negative pressure chamber 16 used for connecting the marking module 3 is arranged on the inner side of the frame 1.

For this embodiment, the type and size of the negative pressure chamber 16 may be set as desired.

Wherein, the unreeling module 2 comprises an unreeling disc 7, a movable cover plate 8 for fixing is arranged on the front side of the unreeling disc 7, a first material guide roller 9 for guiding material is arranged on the left side of the unreeling disc 7, a second material guide roller 11 is arranged on the left side of the first material guide roller 9, a first buffer roller 12 for buffering material belts is arranged on the inner sides of the first material guide roller 9 and the second material guide roller 11, a power unreeling mechanism 10 for unreeling is arranged on the rear side of the unreeling disc 7, the marking module 3 comprises a negative pressure marking workbench 17, a pore plate 18 for supporting the material belts is arranged on the upper side of the negative pressure marking workbench 17, holes are uniformly distributed on the surface of the pore plate 18, a smoke-pumping mechanism 15 for adsorbing the material belts is arranged on the rear side of the negative pressure marking workbench 17, the smoke-pumping mechanism 15 and the negative pressure chamber 16 are mutually connected through a pipeline, a laser machine optical path 14 for laser marking is arranged on the upper side of the pore plate 18, a height adjusting mechanism 13 for adjusting height is arranged on the upper side of the optical path 14 of the laser marking machine, the lower side of the smoking mechanism 15 is provided with a main power driving mechanism 20 for driving, and the upper side of the main power driving mechanism 20 is provided with a cam pressing mechanism 19 for accelerating discharging.

In addition, cutter material collecting module 5 includes lift cylinder 21, lift cylinder 21 downside is equipped with the cutter 22 that is used for cutting the material area, cutter 22 right side is equipped with the elasticity tight mechanism 23 that is used for propping tight cutter 22, rolling module 4 includes drive box 31, drive box 31 downside is equipped with the backup pad 30 that is used for connecting frame 1, drive box 31 front side is equipped with the material receiving tray 24 that is used for receiving the material, material receiving tray 24 front side is equipped with the second apron 25 that is used for the dismantlement, material receiving tray 24 right side is equipped with third guide roller 26, third guide roller 26 right side is equipped with fourth guide roller 27, third guide roller 26 and fourth guide roller 27 inboard are equipped with the second buffer roll 28 that is used for buffering effort, control module 6 includes keyboard 33, keyboard 33 right side is equipped with the mouse 32 supporting with keyboard 33, frame 1 upside is equipped with the display screen 29 that is used for observing. The cutter 22 is made of die steel SKD61 with high hardness and good wear resistance.

It should be noted that the types and specifications of the unwinding tray 7 and the receiving tray 24 may be set as required.

When using this technical scheme's marking system, earlier dismantle unreeling module 2 get off, fix the material area on unreeling module 2, then open whole equipment through control module 6, unreel module 2 and carry the material area on marking module 3, make marking module 3 mark the material area, mark after accomplishing, rethread rolling module 4 rolls the material area, when rolling to a locating position, the cutter is received material module 5 and is cut the material area, after marking the completion, rethread control module 6 closes equipment, then dismantle rolling module 4 get off the material area and take out, again with rolling module 4 install again on frame 1 can, setting through control module 6, can realize complete machine equipment coordinated control, equipment starts and realizes complete machine self-checking, thereby detect the state of every module.

Furthermore, it should be understood that although the present description is described in terms of various embodiments, not every embodiment includes only a single embodiment, and such descriptions are provided for clarity only, and those skilled in the art will recognize that the embodiments described herein can be combined as a whole to form other embodiments as would be understood by those skilled in the art.

Claims (8)

1. A desktop type marking system comprises a rack, an unreeling module arranged on the upper side of the rack and used for placing a material belt, a marking module arranged on the left side of the unreeling module and used for laser marking, a reeling module arranged on the left side of the marking module and used for reeling the material belt, a cutter material receiving module arranged between the reeling module and the marking module and used for cutting the material belt, and a control module arranged on the front side of the marking module and used for controlling the whole system; the rolling module is detachably mounted on the left side of the rack, and a negative pressure chamber used for being connected with the marking module is arranged on the inner side of the rack.

2. The desktop type marking system according to claim 1, wherein the unwinding module comprises an unwinding disc, a movable cover plate for fixing is arranged on the front side of the unwinding disc, a first guide roller for guiding materials is arranged on the left side of the unwinding disc, a second guide roller is arranged on the left side of the first guide roller, a first buffer roller for buffering material belts is arranged on the inner sides of the first guide roller and the second guide roller, and a power unwinding mechanism for unwinding is arranged on the rear side of the unwinding disc.

3. The desktop type marking system according to claim 2, wherein the marking module comprises a negative pressure marking workbench, a hole plate used for supporting the material belt is arranged on the upper side of the negative pressure marking workbench, holes which are uniformly distributed are formed in the surface of the hole plate, a smoking mechanism used for absorbing the material belt is arranged on the rear side of the negative pressure marking workbench, and the smoking mechanism and the negative pressure chamber are connected with each other through a pipeline.

4. The desktop type marking system according to claim 3, wherein a laser machine light path for marking is arranged on the upper side of the orifice plate, a height adjusting mechanism for adjusting height is arranged on the upper side of the laser machine light path, a main power driving mechanism for driving is arranged on the lower side of the smoke exhaust mechanism, and a cam pressing mechanism for accelerating discharging is arranged on the upper side of the main power driving mechanism.

5. The desktop type marking system according to claim 4, wherein the cutter receiving module comprises a lifting cylinder, a cutter for cutting the material belt is arranged on the lower side of the lifting cylinder, and an elastic jacking mechanism for jacking the cutter is arranged on the right side of the cutter.

6. The desktop type marking system according to claim 5, wherein the winding module comprises a driving box, a supporting plate for connecting the rack is arranged on the lower side of the driving box, a material receiving plate for receiving materials is arranged on the front side of the driving box, and a second cover plate for detaching the material receiving plate is arranged on the front side of the material receiving plate.

7. The desktop type marking system according to claim 6, wherein a third guide roller is arranged on the right side of the material receiving tray, a fourth guide roller is arranged on the right side of the third guide roller, and a second buffer roller for buffering acting force is arranged on the inner sides of the third guide roller and the fourth guide roller.

8. The desktop marking system according to claim 7, wherein the control module comprises a keyboard, a mouse matched with the keyboard is arranged on the right side of the keyboard, and a display screen for observation is arranged on the upper side of the rack.

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