CN214641046U - Self-service seal making machine with built-in laser engraving machine - Google Patents

Abstract

The utility model provides a self-service system of built-in laser engraving machine seals machine. The utility model discloses an including the box with set up chapter shell feed bin module, transport module, laser engraving machine module in the box and connect the material module, chapter shell feed bin module is used for exporting the chapter material of waiting to process, chapter shell feed bin module can carry the chapter material of waiting to process to transport the module, carries the module to be equipped with the centre gripping treat the anchor clamps of the chapter material of processing, carry the module to drive this anchor clamps and pass through laser engraving machine module region, dust absorption module region in proper order and connect the material module region, the laser engraving machine module is used for treating the chapter material of processing and carries out laser engraving and make it become the finished product seal, cleans the module and is used for cleaning the remaining discarded object of finished product seal face connects the material module to be used for receiving the finished product seal to put to being convenient for being used for the position of taking. The utility model discloses degree of automation is high, can make the seal by oneself according to the predetermined procedure through the machine of making the seal by oneself when the user selection wants the customization seal, convenient and fast.

Description

Self-service seal making machine with built-in laser engraving machine

Technical Field

The utility model relates to a self-service equipment technical field especially relates to a self-service system of built-in laser engraving machine of stamping.

Background

At present, seal articles sold by seal companies mainly comprise official seals, universal seals, electronic seals, seals with chips and seal consumables such as stamp pad and stamp pad. Each link of the seal manufacturing needs to be manually operated, manual operation in original typesetting software needs to manually set the seal face content, the arrangement of characters and the height, and the manufacturing process has working links of manually extracting consumables, clamping a seal shell, operating a carving machine and the like, and manually keeping a print for filing after the manufacturing is completed. The existing official seal preparation needs to go to a seal company to hold various certificates for manual handling, and the seal preparation is not convenient enough for users far away from the road.

SUMMERY OF THE UTILITY MODEL

According to the technical problem, a self-service stamp making machine with a built-in laser engraving machine is provided. The utility model discloses a technical means as follows:

The utility model provides a built-in laser engraving machine's machine of making seal by oneself, includes the box and sets up chapter shell feed bin module, transport module, laser engraving machine module in the box and connect the material module, chapter shell feed bin module is used for exporting the seal material of treating processing, chapter shell feed bin module can carry the seal material of treating processing to transport the module, transport module is equipped with the centre gripping treat the anchor clamps of the seal material of processing, transport module drives this anchor clamps and passes through laser engraving machine module region, dust absorption module region in proper order and connect the material module region, laser engraving machine module is used for treating the seal material of processing and carries out laser engraving and make it become the finished product seal, it is used for cleaning to clean the module finished product seal face remaining discarded object, it is used for receiving the finished product seal to connect the material module to put to being used for the position of taking being convenient for.

Further, chapter shell feed bin module set up in carry the module and predetermine the top of initial point, its bottom is equipped with opening and photoelectric switch, and the opening part is equipped with displaceable fixture, chapter shell feed bin module will treat that the chapter material of processing carries to the anchor clamps of carrying the module through the action of gravity.

Further, laser engraving machine module includes laser power supply, laser pipe, engraver frame and arranges the light path adjustment mechanism who is used for reflecting the laser light path wherein in, engraver frame bottom is seted up the opening that matches the chapter material of treating processing, light path adjustment mechanism includes fixed mirror, guide rail and places movable reflector, the portable condensing lens above that in, the guide rail includes X axle guide rail and Y axle guide rail, X axle guide rail can be along Y axle guide rail displacement, movable reflector can be with the laser reflection that fixed mirror reflected to the portable condensing lens, on the portable condensing lens can beat the chapter material with the light beam, process into the finished product seal to it, X axle guide rail, Y axle guide rail all are equipped with stop gear.

Further, the laser engraving machine module further comprises a purification module, and the purification module comprises a smoke dust purifier and a smoke suction air pipe.

Further, anchor clamps are connected on anchor clamps runing rest, anchor clamps runing rest connects in the anchor clamps pivot, pneumatic equipment is connected to anchor clamps, and it includes clamping part and spring portion, clamping part includes anchor clamps clamp plate and anchor clamps locating piece, spring portion cup joints on the anchor clamps guide arm, the anchor clamps clamp plate is used for pressing from both sides tightly/unclamp the chapter lid under pneumatic equipment's operation, the anchor clamps guide arm is used for driving the chapter lid displacement from top to bottom under pneumatic equipment's operation.

Further, still including cleaning the module, clean the module and include the dust catcher body, the bottom mounting of dust catcher body is on the dust catcher chassis, and the dust catcher chassis is fixed on box frame, the bottom of dust catcher body is equipped with the dust absorption passageway, still has the nylon brush, the movably connection of nylon brush is on lead screw linear guide slip table, lead screw linear guide slip table passes through dust absorption motor drive.

Further, connect the material module including connect material drawer module and with connect the drive mechanism that material drawer module links to each other, connect material drawer module to link to each other with the conveyer belt, the conveyer belt sets up the below that the termination point was predetermine to the transport module for carry the finished product seal of accomplishing on the transport module to connect in the material drawer module, drive mechanism is used for the drive connect material drawer module reciprocating motion, save respectively and make intact finished product seal, the useless seal of failure.

Further, engraver frame includes roof, curb plate and bottom plate, and each board passes through engraver branch support, the opening of the chapter material of waiting to process is seted up in the matching to the bottom plate, the guide rail includes 2 rows of X axle guide rails and Y axle guide rail, and one of them X axle guide rail side is equipped with laser sheath, is equipped with mobilizable first reflector behind the output of laser source respectively, fixed reflector and set up the second reflector on the X axle guide rail that is close to laser sheath and set up the third reflector on another X axle guide rail, the condensing lens is connected to the third reflector.

The utility model discloses degree of automation is high, can make the seal by oneself according to the predetermined procedure through the machine of making the seal by oneself when the user selection wants the customization seal, and convenient and fast has saved time and distance that need go seal company side and can make the seal among the prior art. Compact structure, the modularization processing makes the box in the upper and lower distribution well in order, also makes whole box area little when saving the process. Through setting up cleaning equipment, the inside environment of box is clean, has also guaranteed the smooth of each mechanism continuous operation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is the structure schematic view of the self-service seal making machine of the utility model.

Fig. 2 is a front view of the conveying module of the present invention.

Fig. 3 is a left side view of the conveying module of the present invention.

Fig. 4 is a top view of the conveying module of the present invention.

Fig. 5 is a left side view of the engraver module of the present invention.

Fig. 6 is a top view of the engraver module of the present invention.

Fig. 7 is a left side view of the cleaning module of the present invention.

In the figure: 1. a nutshell bin module; 2. a receiving module; 3. a delivery module; 5. a print archive module; 7. an engraver module; 8. a cleaning module; 301. a middle plate; 302. a pneumatic rotary joint; 303. a fixture rotating bracket; 304. a jig rotating body; 305. a stamp clamp; 306. a correlation switch transmitting terminal; 307. a clamp cylinder support; 308. a correlation switch receiving end; 309. a clamp positioning block; 310. a drag chain; 311. an electromagnetic valve; 312. a paper receiving stop block; 313. stamping materials; 314. a second linear guide; 315. a second linear guide rail motor; 316. a paper receiving gantry side plate; 317. printing a paper box; 318. printing the top plate; 319. a belt frame; 320. a paper splicing support; 321. a second linear guide rail motor bracket; 324. an electric cylinder guide rod; 325. an electric cylinder; 326. a paper receiving gantry bottom plate; 327. a splicing limit part; 328. a paper receiving slide block; 329. a paper receiving electric cylinder support plate; 330. a photoelectric switch; 331. a second proximity switch; 332. a clamp guide rod; 334. a clamp connecting rod; 335. a clamp washer; 336. a clamp cylinder plug; 337. pressing a clamp plate; 338. a clamp spring; 339. a paper receiving drive shaft; 340. a printing paper box cover; 342. a paper receiving shaft; 344. a coupling; 345. a connecting shaft; 349. a first linear guide rail motor; 350. a paper connecting drag chain support plate; 351. a first linear guide rail; 701. a laser; 702. a light; 703. a reflector fixing plate; 704. an infrared support; 705. an infrared adjusting bracket; 706. a first reflective lens; 707. fixing a reflector; 708. a laser sheath; 709. an air pump; 710. a top plate; 711. a third reflective mirror; 712. a third mirror mount; 713. a proximity switch frame; 714. an X-axis guide rail; 715. a engraver beam; 716. a third proximity switch; 717. a smoking trachea; 718. a motor cover; 719. an X-axis motor; 720. a support rod of the engraving machine; 801. a vacuum cleaner chassis; 802. a dust collection channel; 803. a nylon brush; 804. a cleaner body; 805. a lead screw linear guide rail sliding table; 806. a dust collection motor;

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, the embodiment of the invention discloses a self-service seal making machine, which comprises a box body frame, and a seal shell bin module, a conveying module, a laser engraving machine module and a receiving module which are arranged in the box body; in other optional embodiments, still can include stamp material storehouse module, ink pad module, the printing file module of setting up in the box, stamp shell material storehouse module is used for exporting the stamp material of waiting to process, stamp shell material storehouse module 1 can carry the stamp material of waiting to process to transport module 3, transport module is equipped with the centre gripping the anchor clamps of the stamp material of waiting to process, transport module drives this anchor clamps and passes through engraver module region, dust absorption module region, ink pad module region, printing file module region and material receiving module region in proper order, engraver module 7 is used for carrying out the seal sculpture of the stamp material of waiting to process and makes it become the finished product seal, clean module 8 is used for cleaning the remaining discarded object of finished product seal stamp face, the ink pad module is used for providing the seal material for the finished product of waiting to record, printing file module 5 is used for carrying the record and keeping the end, and carry out paper spare to the finished product seal stamp face that dips in and get seal material and preserve, seal material storehouse module is used for exporting the seal lid that matches with the seal shell, connect material module 2 to be used for receiving finished product seal and the seal lid of filing completion to deposit to the position that is used for taking by being convenient for.

Generally speaking, newly establish the company and need 5 seals, official seal, invoice chapter, legal person's chapter, financial seal and contract chapter promptly, in this embodiment, chapter shell feed bin module quantity is 5 at least, and correspondingly, the anchor clamps quantity on the transport module also is for matching its 5, according to the specification of making the chapter machine by oneself, can set up the multiunit, and reducible cycle of changing is shown as 3 groups in the figure.

The chapter shell bin module set up in carry the module and predetermine the top of initial point, its bottom is equipped with opening and photoelectric switch, and the opening part is equipped with displaceable fixture, chapter shell bin module will treat that the chapter material of processing carries to the anchor clamps of carrying the module through the action of gravity. The chapter shell feed bin module specifically is the barreled, can hold a plurality of chapter materials during it, and in this embodiment, chapter shell feed bin module fixed connection is in the box, and the consumptive material is supplied by the manual work when exhaling, or chapter shell feed bin module detachably connects in the box, and the artifical chapter shell feed bin module of renewing when the consumptive material is exhausted, fixture specifically can be electro-magnet formula, or pneumatic form, when needing to be carved with the seal, main control unit will open signal transmission to fixture, and fixture opens, is detected by photoelectric switch after releasing a chapter material, and fixture is closed, accomplishes the release of a chapter material. The stamp shell bin module can be barrel-shaped or other shapes conforming to the form of a stamp.

As shown in fig. 5 and 6, the engraving machine module includes a laser power source, a laser tube, an engraving machine frame and a light path adjusting mechanism disposed therein for reflecting a laser light path, the engraving machine frame includes a top plate 710, side plates and a bottom plate, each plate is supported by an engraving machine support rod 720, the bottom plate is provided with an opening matching a stamp material to be processed, the light path adjusting mechanism includes a fixed reflector, a guide rail, and a movable reflector and a movable condenser disposed thereon, the guide rail includes 2 rows of X-axis guide rails and Y-axis guide rails, both the X-axis guide rails can displace along the Y-axis guide rails, the movable reflector can reflect laser light reflected by the fixed reflector onto the movable condenser, the movable condenser can irradiate light beams onto the stamp material and process the stamp material into a finished stamp, both the X-axis guide rails and the Y-axis guide rails are provided with a limiting mechanism, the engraving machine module further includes a purification module, the purification module includes a smoke purifier and a smoke tube 717 and an air pump 709 to power the smoke purifier and the smoke tube. In this embodiment, the laser tube is a carbon oxide laser radio frequency diode, the reflector includes a reflector frame, and a reflector barrel and a reflector cover disposed therein, and a blowing tube is further disposed near each mirror surface for calibration before each laser engraving and blowing of the mirror surface. And the X-axis guide rail and the Y-axis guide rail are provided with slide blocks, and the corresponding lenses are fixed on the slide blocks. The engraving principle is that the card reader records information of an entity stamp, the information is converted into a G code for PLC, a code converted from a stamp graph is transmitted to the controller, the controller controls a processing path of the stamp, laser is emitted at an engraving part, and automatic laser stamping can be finished without stopping laser emission at the engraving part.

Specifically, a laser 701 composed of a laser power supply and a laser tube is fixed on a reflector fixing plate 703, the laser 701 emits a beam of light 702, an infrared support 704 is fixed on the reflector fixing plate, an infrared adjusting support 705 capable of sliding on the infrared support is arranged on the infrared support, and the beam of light enters the interior of the engraving machine frame after passing through a first reflecting lens 706 fixed on the infrared adjusting support 705 and a fixed reflective mirror 707 arranged in parallel with a laser sheath 708; the second reflective mirror is arranged on an X-axis guide rail 714 close to the side of the laser sheath 708, the third reflective mirror is arranged on the other X-axis guide rail, the third reflective mirror 711 reflects the laser to a focusing lens below, the third reflective mirror and the focusing lens are integrated together, and an air blowing cylinder for spraying air to the mirror surface to keep the mirror surface clean is arranged below the third reflective mirror. The third mirror is mounted on a third mirror frame 712 and the second mirror is mounted on a second mirror frame. The Y-axis guide rail is fixed on a cross beam 715 of the engraving machine, a proximity switch frame 713 is arranged on the cross beam of the engraving machine, and a third proximity switch 716 is arranged on the proximity switch frame. The X-axis guide rail and the Y-axis guide rail are both provided with synchronous toothed belts which are respectively driven by an X-axis motor 719 and a Y-axis motor connected with the synchronous toothed belts, and the motors are provided with motor covers 718.

As shown in fig. 7, the cleaning module may be a dust suction device or a blowing device or other devices with bristles, and is equipped with a displaceable output end, when the stamp moves to the cleaning module area, the displaceable output end is close to the stamp face, and performs reciprocating dust suction or blowing, after a period of time or a plurality of times of reciprocating, the stamp face keeps clean, and then the stamp shell is transported to the stamp pad part of the filing area by the fixture.

In this embodiment, the bottom mounting of dust catcher body 804 is at dust catcher chassis 801, and dust catcher chassis 801 is fixed on box frame, the bottom of dust catcher body is equipped with dust absorption passageway 803, still has nylon brush 805, the movably connection of nylon brush is on lead screw linear guide slip table 806, lead screw linear guide slip table 806 passes through dust absorption motor 806 drive, removes the back of certain number of times based on predetermined index, accomplishes cleaning of chapter face.

As shown in fig. 2-4, anchor clamps are connected on anchor clamps runing rest, anchor clamps runing rest connects in the anchor clamps pivot, anchor clamps include clamping part includes anchor clamps clamp plate and anchor clamps locating piece, pneumatic equipment is connected to anchor clamps, the anchor clamps clamp plate is used for pressing from both sides tightly/unclamp the chapter lid under pneumatic equipment's function, and conveying module is including setting up the conveying module in middle plate 301 top, conveying module includes lateral shifting device and the seal anchor clamps 305 that can overturn of setting on it, the seal anchor clamps are used for centre gripping chapter material 313, lateral shifting device is used for driving this anchor clamps to accomplish self-service chapter through each region of self-service chapter machine inside in proper order.

In other optional embodiments, automatic filing of the stamp surface of the stamp may also be performed, specifically, the clamp includes a spring portion, and the spring portion is sleeved on the clamp guide rod. The clamp guide rod is used for driving the seal to move up and down under the operation of the pneumatic equipment. In the process of dipping in stamp-pad ink and printing of getting ink pad module area, the anchor clamps guide arm drives the chapter shell and presses down, and the stroke passes through the stop gear restriction to it is sufficient to dip in the seal after guaranteeing to push down, and the seal is made a mark clearly on the paper, is convenient for shoot by the high appearance of clapping. In this embodiment, if choose 5 seals simultaneously for use, then paper moving mechanism at first returns the original point, and after transverse motion to seal place axis, a seal department of tip is marchd along longitudinal rail, and the anchor clamps guide arm of this seal anchor clamps drives the seal shell and stamps, continues to march along longitudinal rail after that and predetermines the distance, marchs to second seal department, analogizes in proper order, accomplishes the shooting of the high appearance of shooing behind the seal face of 5 seals and keeps a grade. The information of the stamp face shot by the high shooting instrument is fed back to a management system of a stamp company in real time, a worker observes whether the stamp face meets the requirements or not, if so, secondary stamping is carried out, paper pieces subjected to secondary stamping are supplied to a user together with the stamp, and if not, the stamp is reproduced.

And a printing and filing mechanism is arranged below the middle plate and used for conveying a filing and backing paper piece to a preset position convenient for stamping of a finished seal clamped by the seal clamp, and the seal clamp is also used for clamping the finished seal to complete the stamping action on the filing and backing paper piece.

Specifically, the stamp holder is connected to the holder rotating bracket 303 through the holder rotating body 304, the holder rotating bracket is connected to the holder rotating shaft, the vertical and clamping movements of the holder are both completed in a pneumatic manner, the holder rotating shaft is connected to a pneumatic device, and the pneumatic device of this embodiment is configured with an air pump and a pneumatic solenoid valve 311. In other alternative embodiments, other forms of electric, hydraulic, or mechanical transmission may be used. Seal anchor clamps include clamping part and spring portion, clamping part includes anchor clamps clamp plate 337 and anchor clamps locating piece 309, and anchor clamps spring 338 cup joints on anchor clamps guide arm 332, the anchor clamps clamp plate is used for pressing from both sides tight/loosen the chapter lid under pneumatic equipment's function, the anchor clamps guide arm is used for driving the chapter lid displacement from top to bottom under pneumatic equipment's function, be equipped with on the anchor clamps locating piece and be used for positioning fixture runing rest round the rotatory in-process seal anchor clamps rotation angle's of anchor clamps pivot correlation switch, each seal anchor clamps all are equipped with a set of correlation switch of supporting, and wherein, correlation switch transmitting terminal 306 and correlation switch receiving terminal 307 set up the both ends at the anchor clamps locating piece respectively. A clamp cylinder head 336 connected to a gas source is connected to the clamp press plate by a clamp link 334 with a clamp gasket 335 therebetween.

The pneumatic device comprises a clamp cylinder and a pneumatic rotary joint 302 connected to the output end of the clamp cylinder, wherein the clamp cylinder is fixed on a clamp cylinder support 307.

The transverse moving device comprises a first linear guide rail 351 connected to the middle plate, a drag chain 310 is arranged on the paper receiving guide rail, one end of the drag chain is connected to a first linear guide rail motor 349, the other end of the drag chain is connected to a paper receiving drag chain support plate 350, the paper receiving drag chain support plate is connected with the fixture rotating support, and the first linear guide rail motor is connected with the fixture rotating support through a paper receiving guide rail shaft.

The printing record mechanism comprises a second linear guide rail 314 connected to the middle plate and a paper receiving mechanism connected to the second linear guide rail 314, the printing paper box 317 is driven by a second linear guide rail motor 315 after being installed on the second linear guide rail 314, a second linear guide rail motor 345 is connected with a paper receiving slide block 328 of the path through a paper receiving driving shaft 339, a coupler 344 and a connecting shaft 345, and the second linear guide rail motor 315 is fixed on a second linear guide rail motor bracket. Meanwhile, the Y-axis displacement path is limited by the paper receiving stopper 312, and the X-axis displacement path is limited by the paper receiving limiting frame 327, where the Y-axis is the transverse movement direction of the stamp, the X-axis is the longitudinal displacement movement direction of the paper receiving mechanism, and the Z-axis is the vertical movement direction of the paper receiving mechanism.

The paper receiving mechanism can perform displacement in the Y-axis direction on the second linear guide rail, the paper receiving mechanism comprises a paper receiving gantry bottom plate 326, a paper receiving gantry side plate 316 connected to the linear guide rail and an X-axis displacement mechanism connected to the gantry bottom plate, a printing paper box 317 is connected to the X-axis displacement mechanism, the X-axis displacement mechanism comprises a paper receiving motor and a paper receiving shaft 342 connected with the paper receiving motor, the paper receiving motor is fixed on the paper receiving bracket 320, the output end of the paper receiving shaft is connected with a belt, the belt is arranged on a belt frame 319, the bottom of the printing paper box 317 is connected with an electric cylinder 325, and specifically, the bottom of the printing paper box is provided with a printing top plate 318, a paper receiving bracket 320, a belt bracket 319 and a paper receiving electric cylinder support plate 329, the top of the printing paper box is provided with a printing paper box cover 340, and the Z-axis displacement of the printing paper box is controlled through the guidance of the electric cylinder guide rod 324.

Each clamp positioning block is provided with a second proximity switch 331, the printing paper box is provided with a photoelectric switch 330 matched with the clamp positioning block, and the two proximity switches are used for positioning the travel distance of the printing paper box on the X axis.

Taking the automatic filing process of self-help seal making as an example, the specific working process of this embodiment is as follows: the method comprises the following steps that firstly, a seal clamp is placed at an initial position by a transverse moving device, a seal material output by a seal shell bin module is obtained, and the seal material is clamped by the clamp; the clamp drives the stamp material to be conveyed to a module area of the engraving machine, the engraved stamp material is a finished stamp, and then cleaning and the like are carried out; the clamp drives the finished seal to be conveyed to the seal filing function module area, the clamp overturns 180 degrees, the ink pad module exposes the ink pad, and the clamp controls the finished seal to dip in the ink pad; the printer prints the certification paper, the paper receiving tray conveys the paper to a position convenient for stamping, and the ink pad module covers the ink pad; the clamp controls a finished product seal to seal on paper, after the seal is finished, the high-speed shooting instrument shoots the seal recorded on the paper, information of the finished product seal is uploaded, the paper receiving disc returns, the paper is stored, a seal company remotely evaluates the information of the finished product seal, and if the finished product seal is an effective finished product seal, secondary dip-in printing stations and secondary filing are carried out; if the seal is an invalid finished seal, the seal carving process is carried out again; after the seal is finished, the paper receiving tray conveys the certificate paper to the material receiving module and then returns; the clamp drives the finished seal to be conveyed to the material receiving module, and the finished seal is released; the seal cover stock bin module releases the seal cover.

Connect the material module including connect material drawer module and with connect the drive mechanism that material drawer module links to each other, connect material drawer module to link to each other with the conveyer belt, the conveyer belt sets up carry the module and predetermine the below of termination point for carry the finished product seal that the preparation was accomplished on the transport module to connect in the material drawer module, drive mechanism is used for the drive connect material drawer module reciprocating motion, save respectively and make intact finished product seal, the useless seal of preparation failure.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (8)

1. The utility model provides a built-in laser engraving machine's machine of making seal by oneself, a serial communication port, include the box and set up seal shell feed bin module, transport module, laser engraving machine module and connect the material module in the box, seal shell feed bin module is used for exporting the seal material of treating processing, seal shell feed bin module can carry the seal material of treating processing to transport module, transport module is equipped with the centre gripping treat the anchor clamps of the seal material of processing, transport module drives this anchor clamps and passes through laser engraving machine module region, dust collection module region and connect the material module region in proper order, laser engraving machine module is used for treating the seal material of processing and carries out laser engraving and makes it become the finished product seal, cleans the module and is used for cleaning the remaining discarded object of finished product seal stamp face, connect the material module to be used for receiving the finished product seal to put to being used for the position of taking in being convenient for.

2. The self-service stamp making machine with the built-in laser engraving machine as claimed in claim 1, wherein the stamp shell bin module is arranged above the preset initial point of the conveying module, an opening and a photoelectric switch are arranged at the bottom of the stamp shell bin module, a displaceable clamp is arranged at the opening, and the stamp shell bin module conveys a stamp material to be processed to the clamp of the conveying module under the action of gravity.

3. The self-service stamp making machine of the built-in laser engraving machine of claim 1, wherein the laser engraving machine module comprises a laser power supply, a laser tube, an engraving machine frame and a light path adjusting mechanism arranged in the engraving machine frame and used for reflecting a laser light path, an opening matched with a stamp material to be processed is formed in the bottom of the engraving machine frame, the light path adjusting mechanism comprises a fixed reflector, a guide rail, a movable reflector and a movable condenser, the movable reflector and the movable condenser are arranged on the fixed reflector, the guide rail comprises an X-axis guide rail and a Y-axis guide rail, the X-axis guide rail can be displaced along the Y-axis guide rail, the movable reflector can reflect laser light reflected by the fixed reflector to the movable condenser, the movable condenser can irradiate light beams to the stamp material and process the stamp material into a finished stamp, and the X-axis guide rail and the Y-axis guide rail are both provided with a limiting mechanism.

4. The self-service stamp making machine of the built-in laser engraving machine of claim 1, wherein the laser engraving machine module further comprises a purification module, and the purification module comprises a smoke purifier and a smoke suction air pipe.

5. The self-service stamp making machine with the built-in laser engraving machine as claimed in claim 1, wherein the clamp is connected to a clamp rotating bracket, the clamp rotating bracket is connected to a clamp rotating shaft, the clamp is connected to a pneumatic device and comprises a clamping portion and a spring portion, the clamping portion comprises a clamp pressing plate and a clamp positioning block, the spring portion is sleeved on a clamp guide rod, the clamp pressing plate is used for clamping/loosening the stamp cover under the operation of the pneumatic device, and the clamp guide rod is used for driving the stamp cover to move up and down under the operation of the pneumatic device.

6. The self-service stamp making machine of the built-in laser engraving machine of claim 1, further comprising a cleaning module, wherein the cleaning module comprises a dust collector body, the bottom end of the dust collector body is fixed on a dust collector underframe, the dust collector underframe is fixed on a box body frame, a dust collection channel is arranged at the bottom of the dust collector body, a nylon brush is further arranged, the nylon brush is movably connected to the lead screw linear guide rail sliding table, and the lead screw linear guide rail sliding table is driven by a dust collection motor.

7. The self-service stamp making machine with the built-in laser engraving machine as claimed in claim 1, wherein the material receiving module comprises a material receiving drawer module and a transmission mechanism connected with the material receiving drawer module, the material receiving drawer module is connected with a conveyor belt, the conveyor belt is arranged below a preset termination point of the conveying module and used for conveying finished stamps made on the conveying module into the material receiving drawer module, and the transmission mechanism is used for driving the material receiving drawer module to move back and forth and respectively storing finished stamps and waste stamps failed to make.

8. The self-service stamp making machine with the built-in laser engraving machine as claimed in claim 3, wherein the engraving machine frame comprises a top plate, side plates and a bottom plate, each plate is supported by an engraving machine support rod, the bottom plate is provided with an opening matched with a stamp material to be processed, the guide rail comprises 2 rows of X-axis guide rails and Y-axis guide rails, a laser sheath is arranged on one side of each X-axis guide rail, a movable first reflective mirror, a fixed reflective mirror, a second reflective mirror arranged on the X-axis guide rail close to the laser sheath and a third reflective mirror arranged on the other X-axis guide rail are respectively arranged behind the output end of the laser source, and the third reflective mirror is connected with a condensing lens.

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