CN219336410U - Radium carving and check out test set suitable for many money material are rolled up - Google Patents

Abstract

The utility model provides laser carving and detecting equipment suitable for multiple material rolls, which comprises a rack component, a laser carving detecting component, an electric appliance component, an alarm lamp, a computer display component and an operation button component, wherein the rack component is connected with the laser carving detecting component; the frame subassembly sets up to upper and lower two-layer, and radium carving detects the subassembly setting in the frame subassembly upper strata, and electrical apparatus subassembly sets up in the frame subassembly lower floor, and the warning light setting is at the frame top, and computer display subassembly sets up in the frame front end, and operating button subassembly sets up in computer display subassembly below. The laser engraving and detecting device can meet the requirements of automation and high precision of different coil materials. The equipment is provided with a computer display component for storing the running condition of each component in the equipment and the related data of the carving condition of the material roll so as to be convenient for an operator to check in real time, and when the equipment fails or detects the condition of unqualified material roll and the like, the equipment can immediately stop working and send out an alarm to remind the operator to intervene in time.

Description

Radium carving and check out test set suitable for many money material are rolled up

Technical Field

The utility model belongs to the technical field of laser engraving, and particularly relates to laser engraving and detecting equipment suitable for multiple material rolls.

Background

The laser carving machine is scientific equipment for carving materials to be carved by utilizing laser, and the existing laser machine is generally used for manually discharging materials, so that the laser labor cost is high. Especially when carrying out radium-shine to the coil stock, because the length of coil stock is very long, the both ends of coil stock need personnel to carry out blowing and receipts material respectively, and the operation is comparatively troublesome like this, and the cost of labor is very high moreover. Meanwhile, when the coil stock is placed on a working platform of the laser engraving machine, the coil stock is easy to shift or tilt, and the like, so that the coil stock is fixed on the working platform by designing related components, and the coil stock can be laser after being aligned with the working platform, so that the coil stock is required to be manually and frequently adjusted and positioned, and deviation is easy to exist, thereby influencing the precision of laser engraving of the coil stock. In addition, when the film or the release paper is tightly attached to the roll material, the film or the release paper is usually required to be manually torn off in advance, and the film or the release paper is required to be manually attached again after carving is completed, so that a large amount of manpower and material resources are consumed. In addition, the product after carving is finished is still required to be put into a detection device for detection, and manual discharging and receiving are still required, so that the labor cost is greatly increased.

In order to solve the above problems, related devices are designed in many prior arts. The patent CN217253638U discloses two-dimensional code laser engraving equipment for glue attaching surfaces of rolled three-dimensional steel sheets, which comprises an equipment main body, wherein a cabinet door is arranged at the inner position below the right front side of the equipment main body, a drawer is arranged at the position of the left upper side of the cabinet door, a desktop is arranged at the position of the upper side of the equipment main body, original single sheets with the size of die cutting glue and laser two-dimensional codes are manually spliced into coiled materials, the coiled materials are changed into belt-type laser two-dimensional codes, and the coiled materials are directly punched; the equipment saves a large part of labor cost, greatly improves production capacity, effectively avoids the situation that the laser engraving device has laser engraving errors in work when the equipment main body is subjected to accidental impact and shake, and simultaneously, dust generated by laser engraving can be sucked by dust suction equipment and discharged from a fan port, so that the interference of the dust suction equipment to the work of the laser engraving device is effectively prevented; however, the equipment still needs to splice the product into a coil stock manually after the product is engraved, the labor cost is still high, the equipment is suitable for engraving the coil stock which is not attached to the film or the isolation paper, and when the feeder is used for engraving the coil stock which is tightly attached to the film or the isolation paper, the equipment still needs to be manually torn off and attached to the film or the isolation paper. As another example, patent CN207726430U designs a feeder for laser engraving of thin coiled materials, which comprises a discharging mechanism, a positioning mechanism and a receiving mechanism which are sequentially arranged, wherein the discharging mechanism and the receiving mechanism are respectively arranged at two sides of the laser engraving machine, and the positioning mechanism is fixedly arranged on a working platform of the laser engraving machine; the feeder can adapt to thin-material coil trays with different sizes, and the discharging, positioning and receiving of the thin-material coil do not need to be manually participated, so that the labor cost is conveniently reduced, and radiation and smoke in the laser process are prevented from damaging the health of staff; however, the carving object of the feeder is only a coiled material without a film or isolation paper, and when the feeder is used for carving the coiled material tightly attached with the film or isolation paper, the coiled material still needs to be manually torn off and attached, and likewise, the feeder is not provided with any detection mechanism for detecting the carved product, so that the condition of low carving qualification rate is easy to occur.

Therefore, how to design a device which is suitable for the coil stock closely attached with the film or the isolation paper and can realize automatic and high-precision positioning engraving and detection is a technical problem to be solved urgently by the person skilled in the art.

Disclosure of Invention

In order to solve the above problems, the present application provides the following technical solutions:

the laser carving and detecting equipment suitable for the multiple material rolls comprises a frame component, a laser carving detecting component, an electric appliance component, an alarm lamp, a computer display component and an operation button component; the laser etching detection device comprises a rack assembly, an electric appliance assembly, an alarm lamp, a computer display assembly and an operation button assembly, wherein the rack assembly is arranged on an upper layer and a lower layer of the rack assembly, the laser etching detection assembly is arranged on an upper layer of the rack assembly, the electric appliance assembly is arranged on a lower layer of the rack assembly, the alarm lamp is arranged at the top of the rack assembly, the computer display assembly is arranged at the front end of the rack assembly, and the operation button assembly is arranged below the computer display assembly.

Preferably, the laser carving detection assembly comprises a feeding mechanism, a laser carving mechanism, a lifting platform mechanism, a detection mechanism, a working platform mechanism and a discharging mechanism; the feeding mechanism and the discharging mechanism are arranged on two sides of the working platform mechanism, the lifting platform mechanism is arranged behind the feeding mechanism, the laser engraving mechanism is arranged on the lifting platform mechanism, a supporting frame is arranged behind the working platform mechanism, and the detecting mechanism is arranged on the supporting frame.

Preferably, the lifting platform mechanism comprises a fixed frame, a guide rail, a hand-operated ring and a supporting plate; the guide rail is arranged on the fixing frame, the hand-shaking ring is arranged at the top of the guide rail, and the supporting plate is arranged on the guide rail.

Preferably, the laser engraving mechanism comprises an air-cooled laser, a camera pseudo-coaxial module and a strip-shaped light source; the air-cooled laser is arranged on the supporting plate, the camera pseudo-coaxial module is arranged right in front of the air-cooled laser and is connected with the supporting plate through an adapter, and the strip-shaped light sources are arranged on two sides of the bottom of the camera pseudo-coaxial module.

Preferably, the detection mechanism comprises a grade detection module, a light source, a support plate and a motion module; the motion module is arranged on the support frame, the support plate is arranged on the motion module, the grade detection module is arranged at the front end of the top of the support plate, and the light source is arranged below the grade detection module and is connected with the support plate through screws.

Preferably, a light shield is further arranged outside the light source, and the light shield is connected with the supporting plate through a screw.

Preferably, the working platform mechanism comprises a table frame, a feeding guide idler wheel, a first connecting piece, a coil stock sensor, a vacuum adsorption platform, a motor assembly, a compression roller assembly, a discharging guide idler wheel and a second connecting piece; the feeding guide idler wheel and the discharging guide idler wheel are connected with two ends of the table frame top plate through a first connecting piece and a second connecting piece respectively, the vacuum adsorption platform is arranged at the table frame top, the coil stock sensor is arranged on the first connecting piece, the motor assembly is arranged at the bottom of the table frame top plate, and the pressing roller assembly is arranged at the table frame top and is close to the second connecting piece.

Preferably, a plurality of vacuum adsorption platforms are provided.

Preferably, the feeding mechanism comprises a feeding bracket, a discharging reel, a first feeding reel sensor, a first movable idler wheel, a paper collecting and isolating disc, a first isolating paper sensor, a second movable idler wheel, a first motor speed regulator and a second motor speed regulator, wherein the discharging reel, the first feeding reel sensor, the first movable idler wheel, the paper collecting and isolating disc, the first isolating paper sensor, the second movable idler wheel, the first motor speed regulator and the second motor speed regulator are arranged on the feeding bracket.

Preferably, the blanking mechanism comprises a blanking bracket, a material receiving reel, a second material receiving reel inductor, a third movable idler wheel, a paper discharging and isolating disc, a second isolating paper inductor, a third motor speed regulator and a power tensioning wheel, wherein the material receiving reel, the second material receiving reel inductor, the third movable idler wheel, the paper discharging and isolating disc, the second isolating paper inductor, the third motor speed regulator and the power tensioning wheel are arranged on the blanking bracket.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the laser carving and detecting equipment suitable for multiple rolls, provided by the utility model, the computer display component is used for storing the running conditions of the components in the equipment and the related data of the carving conditions of the rolls, so that an operator can check in real time, and especially when the equipment breaks down or a detecting mechanism detects unqualified rolls, the operator can find problems in time, analyze reasons and solve the problems rapidly and efficiently.

2. According to the laser carving and detecting device suitable for multiple material rolls, the sensors are arranged on the laser carving detecting component and the electric appliance component, when the device is sensed to be faulty or the detecting mechanism detects unqualified rolled materials, the device can stop working immediately, and meanwhile, the alarm lamp at the top of the device can give out alarm light and sound to remind an operator to check the condition of the device in time and solve the problem of the device.

3. According to the laser carving and detecting equipment suitable for the multiple material rolls, provided by the utility model, the lifting platform mechanism is arranged, so that the distance between the laser carving mechanism and the roll material can be effectively adjusted, and carving operation according to actual production needs is realized.

4. According to the laser carving and detecting equipment suitable for multiple material rolls, the air-cooled laser and the camera pseudo-coaxial module are coaxially arranged, so that quick and accurate positioning carving of the material rolls can be realized.

5. According to the laser carving and detecting equipment suitable for multiple material rolls, provided by the utility model, the roll materials are adsorbed by the 2 vacuum adsorption platforms and are compressed by the compression roller assemblies, so that the roll materials can be effectively prevented from shifting during carving and detection, and the laser carving mechanism can conveniently carve the roll materials and the detection mechanism can conveniently detect the roll materials.

6. The laser carving and detecting equipment suitable for multiple rolls provided by the utility model can meet the requirements of automatic and high-precision laser carving and detection of different types of rolls (with/without isolation paper lamination) through reasonable layout of the structural components of the feeding mechanism and the discharging mechanism and working cooperation among the components.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a front view of a laser engraving and detecting apparatus for multiple rolls according to the present utility model;

FIG. 2 is a schematic diagram of a laser engraving detecting assembly in a laser engraving and detecting device suitable for multiple rolls according to the present utility model;

FIG. 3 is a schematic structural diagram of a lifting platform mechanism in laser engraving and detecting equipment suitable for multiple rolls;

FIG. 4 is a schematic structural diagram of a laser engraving mechanism in a laser engraving and detecting device suitable for multiple rolls of material;

FIG. 5 is a schematic structural diagram of a detection mechanism in laser engraving and detecting equipment suitable for multiple rolls;

FIG. 6 is a schematic structural diagram of a working platform mechanism in laser engraving and detecting equipment suitable for multiple rolls;

FIG. 7 is a schematic structural diagram of a feeding mechanism in laser engraving and detecting equipment suitable for multiple rolls;

FIG. 8 is a schematic structural diagram of a blanking mechanism in laser engraving and detecting equipment suitable for multiple rolls;

in the figure: 1. a frame assembly; 2. laser carving detection component; 21. a feeding mechanism; 2101. a feeding bracket; 2102. discharging reels; 2103. a first roll sensor; 2104. a first moving idler; 2105. a steel sheet coil material discharging belt; 2106. a paper receiving and separating tray; 2107. a first separator sensor; 2108. a second moving idler; 2109. a release paper collecting belt; 2110. a first motor governor; 2111. a second motor governor; 2112. a first idler; 22. a laser engraving mechanism; 221. an air-cooled laser; 222. a camera pseudo-coaxial module; 223. a strip-shaped light source; 224. an adapter; 23. a lifting platform mechanism; 231. a fixing frame; 232. a guide rail; 233. hand ring; 234. a supporting plate; 24. a detection mechanism; 241. a grade detection module; 242. a light source; 243. a light shield; 244. a support plate; 245. a motion module; 246. a support frame; 25. a work platform mechanism; 251. a table frame; 252. a feed guide idler; 253. a first connector; 254. a coil sensor; 255. a vacuum adsorption platform; 256. a motor assembly; 257. a pinch roller assembly; 258. a discharging guide idler wheel; 259. a second connector; 26. a blanking mechanism; 2601. a blanking bracket; 2602. a material receiving reel; 2603. a second roll sensor; 2604. a third moving idler; 2605. a steel sheet coil material receiving belt; 2606. placing an isolation paper disc; 2607. a second separator sensor; 2608. a release paper discharging belt; 2609. a third motor governor; 2610. a power tensioning wheel; 2611. a second idler; 3. an alarm lamp; 4. a computer display assembly; 5. the button assembly is operated.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. In the following description, specific details such as specific configurations and components are provided merely to facilitate a thorough understanding of embodiments of the present application. It will therefore be apparent to those skilled in the art that various changes and modifications can be made to the embodiments described herein without departing from the scope and spirit of the application. In addition, descriptions of well-known functions and constructions are omitted in the embodiments for clarity and conciseness.

It should be appreciated that reference throughout this specification to "one embodiment" or "the present embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present application. Thus, the appearances of the "one embodiment" or "this embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

Furthermore, the present application may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

The term "and/or" is herein merely an association relationship describing an associated object, meaning that there may be three relationships, e.g., a and/or B, may represent: the terms "/and" herein describe another associative object relationship, indicating that there may be two relationships, e.g., a/and B, may indicate that: the character "/" herein generally indicates that the associated object is an "or" relationship.

The term "at least one" is herein merely an association relation describing an associated object, meaning that there may be three kinds of relations, e.g., at least one of a and B may represent: a exists alone, A and B exist together, and B exists alone.

It is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprise," "include," or any other variation thereof, are intended to cover a non-exclusive inclusion.

Example 1

This embodiment introduces a radium carving and check out test set's structure constitution suitable for many money material rolls.

Referring to fig. 1, fig. 1 is a front view of a laser carving and detecting device suitable for multiple rolls according to the present utility model.

The laser carving and detecting equipment suitable for the multiple material rolls comprises a frame component 1, a laser carving detecting component 2, an electric appliance component, an alarm lamp 3, a computer display component 4 and an operation button component 5; the laser engraving detecting device is characterized in that the frame assembly 1 is arranged in an upper layer and a lower layer, the laser engraving detecting assembly 2 is arranged on the upper layer of the frame assembly 1, the electric appliance assembly is arranged on the lower layer of the frame assembly 1, the alarm lamp 3 is arranged at the top of the frame assembly 1, the computer display assembly 4 is arranged at a proper position at the front end of the frame assembly 1, and the operating button assembly 5 is arranged at a proper position below the computer display assembly 4 and used for controlling the starting and stopping of the device.

Further, the laser carving detection assembly 2, the electrical appliance assembly, the alarm lamp 3, the computer display assembly 4 and the operation button assembly 5 are electrically connected.

Further, each mechanism/electric appliance included in the laser carving detection assembly 2 and the electric appliance assembly is provided with an inductor, the inductors are in signal connection with the alarm lamp 3 and the operation button assembly 5, when the equipment is sensed to be faulty or the detection mechanism 24 detects unqualified coiled materials, the equipment can stop working immediately, and meanwhile, the alarm lamp 3 at the top of the equipment can emit light and sound of the alarm lamp 3 so as to remind an operator to check the equipment condition in time and solve the problem of the equipment;

further, the computer display assembly 4 is used for storing the operation status of each assembly in the device and the related data of the carving condition of the material roll, so that the operator can check in real time, especially when the device fails or the detecting mechanism 24 detects the unqualified material roll, the operator can find the problem in time, analyze the reason and solve the problem quickly and efficiently.

Further, be provided with transparent glass around the frame subassembly 1, on the one hand can be used for avoiding the impurity in the environment to the influence of radium carving, on the other hand can also be convenient for the operator to the looking over of each subassembly operating condition in this equipment.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a laser etching detection assembly in a laser etching and detection device suitable for multiple rolls according to the present utility model.

The laser carving detection assembly 2 comprises a feeding mechanism 21, a laser carving mechanism 22, a lifting platform mechanism 23, a detection mechanism 24, a working platform mechanism 25 and a blanking mechanism 26; the feeding mechanism 21 and the discharging mechanism 26 are arranged on two sides of the working platform mechanism 25, the lifting platform mechanism 23 is arranged behind the feeding mechanism 21, the laser engraving mechanism 22 is arranged on the lifting platform mechanism 23, a supporting frame 246 is arranged behind the working platform mechanism 25, and the detecting mechanism 24 is arranged on the supporting frame 246.

Referring to fig. 3, fig. 3 is a schematic structural diagram of a lifting platform mechanism in a laser engraving and detecting device suitable for multiple rolls according to the present utility model.

The lifting platform mechanism 23 comprises a fixed frame 231, a guide rail 232, a hand-operated ring 233 and a supporting plate 234; the guide rail 232 is arranged on the fixing frame 231, the hand-shaking ring 233 is arranged at the top of the guide rail 232 and is fixedly connected with the guide rail by a screw, and the supporting plate 234 is arranged on the guide rail 232.

Further, the laser engraving mechanism 22 is disposed on the supporting plate 234, and the supporting plate 234 can be moved up and down on the guide rail 232 by hand-shaking the ring 233, so as to adjust the height of the laser engraving mechanism 22, that is, effectively adjust the distance between the laser engraving mechanism 22 and the coil stock, thereby implementing engraving operation according to actual production requirements.

Referring to fig. 4, fig. 4 is a schematic structural diagram of a laser engraving mechanism in a laser engraving and detecting device suitable for multiple rolls according to the present utility model.

The laser engraving mechanism 22 comprises an air-cooled laser 221, a camera pseudo-coaxial module 222 and a strip light source 223; the air-cooled laser 221 is disposed on the supporting plate 234, the camera pseudo-coaxial module 222 is disposed right in front of the air-cooled laser 221 and connected with the supporting plate 234 through an adapter, and the strip-shaped light sources 223 are disposed on two sides of the bottom of the camera pseudo-coaxial module 222.

Further, the camera pseudo-coaxial module 222 includes a camera, a reflection lens, a galvanometer, a field lens and a CCD (not identified in the figure), when the laser engraving mechanism 22 works, the camera performs product contour recognition and positioning, then the air-cooled laser 221 emits laser, the beam expander at the front end amplifies the light spot, and then the laser is transmitted into the camera pseudo-coaxial module 222, and the laser and the CCD are coupled and output through the reflection lens after the laser is output through the high-speed galvanometer and the field lens, so that the camera pseudo-coaxial module 222 recognizes product contour positioning and the air-cooled laser 221 performs fixed point engraving.

Further, after the camera in the camera pseudo-coaxial module 222 photographs, the image information is converted into coordinate information through a software professional algorithm and sent to the air-cooled laser 221, so that visual positioning carving is realized.

Further, the air-cooled laser 221 and the camera pseudo-coaxial module 222 are coaxially arranged, so that rapid and accurate positioning engraving of the coil stock can be realized.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a detection mechanism in a laser carving and detecting device suitable for multiple rolls according to the present utility model.

The detection mechanism 24 includes a level detection module 241, a light source 242, a light shield 243, a support plate 244, and a movement module 245; the motion module 245 is arranged on the support frame 246, the support plate 244 is arranged on the motion module 245, the grade detection module 241 is arranged at the front end of the top of the support plate 244, the light source 242 is arranged below the grade detection module 241 and is fixedly connected with the support plate 244 through screws, and the light shield 243 is arranged outside the light source 242 and is connected with the support plate 244 through screws.

Further, the support plate 244 may move left and right on the movement module 245.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a working platform mechanism in a laser carving and detecting device suitable for multiple rolls according to the present utility model.

The working platform mechanism 25 comprises a table frame 251, a feeding guide idler 252, a first connecting piece 253, a coil stock sensor 254, a vacuum adsorption platform 255, a motor assembly 256, a compression roller assembly 257, a discharging guide idler 258 and a second connecting piece 259; the feeding guide idler 252 and the discharging guide idler 258 are respectively connected with two ends of a top plate of the table frame 251 through a first connecting piece 253 and a second connecting piece 259, the vacuum adsorption platform 255 is arranged at the top of the table frame 251, the coil stock sensor 254 is arranged on the first connecting piece 253, the motor assembly 256 is arranged at a proper position on the top plate of the table frame 251, and the pressing roller assembly 257 is arranged at the top of the table frame 251 and is close to the second connecting piece 259.

Further, the vacuum adsorption platforms 255 are provided with 2 vacuum adsorption platforms, and are used for adsorbing the coil stock and compressing the coil stock by matching with the compressing roller assemblies 257, so that the coil stock can be effectively prevented from shifting during engraving and detecting, and the laser engraving mechanism 22 can conveniently perform engraving and detecting on the coil stock by the laser engraving mechanism 24.

Further, the coil sensor 254 is used to detect the number of steel sheets on the strip and cooperate with the motor assembly 256 to effect automated coil transport.

Example 2

Based on the above embodiment 1, this embodiment describes a laser carving and detecting equipment that is applicable to many money material rolls, and the feed mechanism and the unloading mechanism structure of the same are constituteed.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a feeding mechanism in a laser engraving and detecting device suitable for multiple rolls according to the present utility model.

The feeding mechanism 21 comprises a feeding bracket 2101, a discharging reel 2102, a first coil sensor 2103, a first movable idler 2104, a steel sheet coil discharging belt 2105, a separation paper receiving tray 2106, a first separation paper sensor 2107, a second movable idler 2108, a separation paper receiving belt 2109, a first motor speed regulator 2110 and a second motor speed regulator 2111; the discharging reel 2102, the first coil inductor 2103, the first movable idler 2104, the steel coil discharging belt 2105, the isolation paper receiving tray 2106, the first isolation paper inductor 2107, the second movable idler 2108, the isolation paper receiving belt 2109, the first motor speed regulator 2110 and the second motor speed regulator 2111 are all arranged on the feeding bracket 2101;

the feeding bracket 2101 is further provided with a plurality of first idler wheels 2612, the steel sheet coil stock discharging belt 2105 is connected with the discharging reel 2102 through 2 first idler wheels 2612 and a first movable idler wheel 2104, the isolation paper receiving tray 2106 is connected with the discharging reel 2102 through an isolation paper receiving belt 2109, 2 first idler wheels 2612 and a second movable idler wheel 2108, and the separation part of the steel sheet coil stock discharging belt 2105 and the isolation paper receiving belt 2109 is further provided with 1 first idler wheel 2612; the first coil sensor 2103 is arranged at the left lower part of the discharging coil 2102, and the first isolation paper sensor 2107 is arranged at a proper position on the right side of the isolation paper receiving tray 2106; the first motor speed regulator 2110 is in signal connection with the first roll sensor 2103 and is electrically connected with the discharging reel 2102, and the second motor speed regulator 2111 is in signal connection with the first separator sensor 2107 and is electrically connected with the separator receiving tray 2106.

Further, the working procedure of the feeding mechanism 21 is as follows: the operator puts the coiled material to be engraved on the discharging reel 2102, and adjusts the positions of the flanges of the discharging reel 2102 and the receiving isolation paper disc 2106 to be consistent; the first coil sensor 2103 sends out an opening signal when sensing that the discharging coil 2102 is filled with materials, the first motor speed regulator 2110 is controlled to be opened, so that the first movable idler 2104 slowly descends when the discharging coil 2102 rotates to discharge materials, and when the first movable idler 2104 descends to a limiting position, the first coil sensor 2103 sends out a stopping signal, the first motor speed regulator 2110 is controlled to stop, and the discharging coil 2102 stops discharging materials; at this time, the second moving idler 2108 slowly descends, when the second moving idler 2108 descends to the limit position, the first isolation paper sensor 2107 sends out an opening signal to control the second motor speed regulator 2111 to be opened, so that the second moving idler 2108 is driven to slowly ascend while the isolation paper receiving tray 2106 rotates to receive paper, and when the second moving idler 2108 ascends to the limit position, the first isolation paper sensor 2107 sends out a stopping signal to control the second motor speed regulator 2111 to stop, so that the isolation paper receiving tray 2106 stops receiving paper; at this time, the motor (not shown) controls the steel sheet coil discharging belt 2105 to continuously discharge, drives the first movable idler 2104 to slowly rise, and when the first coil sensor 2103 rises to the limit position, sends out an opening signal, controls the first motor speed regulator 2110 to open, so that the discharging reel 2102 rotates to discharge, and then repeats the previous actions.

Referring to fig. 8, fig. 8 is a schematic structural diagram of a blanking mechanism in a laser carving and detecting device suitable for multiple rolls according to the present utility model.

The blanking mechanism 26 comprises a blanking bracket 2601, a blanking reel 2602, a second coil sensor 2603, a third movable idler 2604, a steel sheet coil blanking belt 2605, a separation paper tray 2606, a second separation paper sensor 2607, a separation paper blanking belt 2608, a third motor speed regulator 2609 and a power tensioning wheel 2610; the material receiving reel 2602, the second material roll sensor 2603, the third movable idler 2604, the steel sheet roll material receiving belt 2605, the isolation paper tray 2606, the second isolation paper sensor 2607, the isolation paper discharging belt 2608 and the third motor speed regulator 2609 are all arranged on the material discharging bracket 2601;

the blanking bracket 2601 is further provided with a plurality of second idler pulleys 2611, the steel sheet coil stock receiving belt 2605 is connected with the receiving reel 2602 through 3 second idler pulleys 2611 and a third movable idler pulley 2604, the isolation paper tray 2606 is connected with the receiving reel 2602 through an isolation paper discharging belt 2608 and 1 second idler pulley 2611, and the power tensioning wheel 2610 is arranged above the receiving reel 2602 and is used for attaching the steel sheet coil stock receiving belt 2605 and the isolation paper discharging belt 2608; the second roll sensor 2603 is provided at a right position on the left side of the collection reel 2602, and the second separator sensor 2607 is provided at a right position on the separator discharge tray 2606; the third motor speed regulator 2609

Is in signal connection with the second coil sensor 2603 and is electrically connected with the take-up reel 2602.

Further, the working procedure of the blanking mechanism 26 is as follows: when the detection mechanism 24 detects the coiled material to be qualified, the third movable idler 2604 slowly descends, and when the third movable idler 2604 descends to the limit position, the second coil inductor 2603 sends an opening signal to control the third motor speed regulator 2609 to be opened, so that the material receiving coil 2602 rotates to receive the material, meanwhile, the isolation paper disc 2606 is driven to rotate, the driven steel sheet coiled material receiving belt 2605 and the isolation paper discharging belt 2608 are attached through the power tensioning wheel 2610, and then the material receiving coil 2602 is coiled together; the steel sheet coil stock receiving belt 2605 is tightened and drives the third movable idler 2604 to rise, and when the third movable idler 2604 rises to the limit position, the second coil stock sensor 2603 sends a stop signal to control the third motor speed regulator 2609 to stop, so that the receiving reel 2602 stops receiving the steel sheet coil stock.

The technical scheme that this embodiment provided can make this equipment be applicable to the sculpture and the detection of different grade type (have the release paper to cover, no release paper) material book to satisfy the automatic finish machining radium carving of different products.

Example 3

Based on the above embodiments 1 and 2, this embodiment describes a workflow of laser carving and detecting equipment suitable for multiple rolls, specifically including the following steps:

s1: the operator puts the coiled material to be engraved and the isolation paper roll on the feeding mechanism 21 and the discharging mechanism 26, and adjusts the positions of flanges on the discharging reel 2102, the receiving isolation paper disc 2106, the discharging isolation paper disc 2606 and the receiving reel 2602 to be consistent;

s2: the feeding mechanism 21 finishes the separation of the steel sheet coil stock and the isolation paper and discharges the steel sheet coil stock and the isolation paper onto the working platform mechanism 25, and after a coil stock sensor 254 senses the existence of the material, a motor component 256 is controlled to be started so as to release a certain amount of the material;

s3: the camera pseudo-coaxial module 222 is used for identifying the contour positioning of the product by photographing and is matched with the air cooling laser 221 to finish carving;

s4: after engraving of the roll in a certain area is completed, the motor assembly 256 is turned on to move a certain amount of material forward;

s5: the detection mechanism 24 detects the grade of the carved coil stock and transmits data to the computer display assembly 4; wherein, grade A is qualified, grade B and grade B below are unqualified;

s6: when the detecting mechanism 24 detects unqualified products, the alarm lamp 3 sends out alarm signals and carries out manual intervention treatment; when the detecting mechanism 24 detects the qualified products, the coiled materials enter the receiving mechanism 26 to finish the lamination of the steel sheet coiled materials and the isolation paper and receive the coiled materials;

s7: repeating S2-S6; when the first coil sensor 2103 senses a shortage of material, the device stops working and reminds an operator to replace the coil on the discharging coil 2102; or when the second separator sensor 2607 senses a paper shortage, the apparatus stops working and reminds the operator to replace the separator paper roll on the separator paper discharge tray 2606; or when the second coil sensor 2603 senses full material, the device stops working and reminds an operator to replace the coil on the receiving coil 2602; or when the first separator sensor 2107 senses full paper, the apparatus stops working and alerts the operator to replace the separator paper roll on the separator paper receiving tray 2106.

While the utility model has been described with respect to preferred embodiments thereof, it will be understood by those skilled in the art that various modifications and additions may be made without departing from the scope of the utility model.

Claims (10)

1. The laser carving and detecting equipment suitable for the multiple material rolls is characterized by comprising a frame component (1), a laser carving detecting component (2), an electric appliance component, an alarm lamp (3), a computer display component (4) and an operation button component (5); the laser etching machine is characterized in that the frame assembly (1) is arranged in an upper layer and a lower layer, the laser etching detection assembly (2) is arranged on the upper layer of the frame assembly (1), the electric appliance assembly is arranged on the lower layer of the frame assembly (1), the alarm lamp (3) is arranged at the top of the frame assembly (1), the computer display assembly (4) is arranged at the front end of the frame assembly (1), and the operation button assembly (5) is arranged below the computer display assembly (4).

2. The laser engraving and detecting device for multiple rolls of claim 1, wherein: the laser engraving detection assembly (2) comprises a feeding mechanism (21), a laser engraving mechanism (22), a lifting platform mechanism (23), a detection mechanism (24), a working platform mechanism (25) and a discharging mechanism (26); the feeding mechanism (21) and the discharging mechanism (26) are arranged on two sides of the working platform mechanism (25), the lifting platform mechanism (23) is arranged behind the feeding mechanism (21), the laser engraving mechanism (22) is arranged on the lifting platform mechanism (23), a supporting frame (246) is arranged behind the working platform mechanism (25), and the detecting mechanism (24) is arranged on the supporting frame (246).

3. The laser engraving and detecting device for multiple rolls of claim 2, wherein: the lifting platform mechanism (23) comprises a fixed frame (231), a guide rail (232), a hand ring (233) and a supporting plate (234); the guide rail (232) is arranged on the fixing frame (231), the hand-shaking ring (233) is arranged at the top of the guide rail (232), and the supporting plate (234) is arranged on the guide rail (232).

4. A laser engraving and detecting device for multiple rolls according to claim 3, characterized in that: the laser engraving mechanism (22) comprises an air-cooled laser (221), a camera pseudo-coaxial module (222) and a strip-shaped light source (223); the air-cooled laser (221) is arranged on the supporting plate (234), the camera pseudo-coaxial module (222) is arranged right in front of the air-cooled laser (221) and connected with the supporting plate (234) through an adapter, and the strip-shaped light sources (223) are arranged on two sides of the bottom of the camera pseudo-coaxial module (222).

5. A laser engraving and detecting apparatus for use with multiple rolls according to any one of claims 2-4, wherein: the detection mechanism (24) comprises a grade detection module (241), a light source (242), a supporting plate (244) and a movement module (245); the motion module (245) is arranged on the support frame (246), the support plate (244) is arranged on the motion module (245), the grade detection module (241) is arranged at the front end of the top of the support plate (244), and the light source (242) is arranged below the grade detection module (241) and is connected with the support plate (244) through screws.

6. The laser engraving and detecting device for multiple rolls of claim 5, wherein: a light shield (243) is further arranged outside the light source (242), and the light shield (243) is connected with the supporting plate (244) through screws.

7. A laser engraving and detecting apparatus according to any one of claims 2-4 or 6, adapted for use with multiple rolls, wherein: the working platform mechanism (25) comprises a table frame (251), a feeding guide idler wheel (252), a first connecting piece (253), a coil stock sensor (254), a vacuum adsorption platform (255), a motor assembly (256), a compression roller assembly (257), a discharging guide idler wheel (258) and a second connecting piece (259); the feeding guide idler (252) and the discharging guide idler (258) are respectively connected with two ends of a top plate of the table frame (251) through a first connecting piece (253) and a second connecting piece (259), the vacuum adsorption platform (255) is arranged at the top of the table frame (251), the coil stock sensor (254) is arranged on the first connecting piece (253), the motor assembly (256) is arranged at the bottom of the top plate of the table frame (251), and the pressing roller assembly (257) is arranged at the top of the table frame (251) and is close to the second connecting piece (259).

8. The laser engraving and detecting apparatus of claim 7, wherein: the vacuum adsorption platform (255) is provided with a plurality of.

9. A laser engraving and detecting apparatus according to any one of claims 2-4 or 6, adapted for use with multiple rolls, wherein: the feeding mechanism (21) comprises a feeding support (2101), a discharging reel (2102) arranged on the feeding support (2101), a first material reel sensor (2103), a first movable idler (2104), a receiving and isolating paper tray (2106), a first isolating paper sensor (2107), a second movable idler (2108), a first motor speed regulator (2110) and a second motor speed regulator (2111).

10. A laser engraving and detecting apparatus according to any one of claims 2-4 or 6, adapted for use with multiple rolls, wherein: the blanking mechanism (26) comprises a blanking bracket (2601), a material receiving reel (2602), a second material roll sensor (2603), a third movable idler (2604), an isolation paper discharging tray (2606), a second isolation paper sensor (2607), a third motor speed regulator (2609) and a power tensioning wheel (2610), wherein the material receiving reel (2602) is arranged on the blanking bracket (2601).

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