CN215884387U - Certificate issuing equipment and certificate making machine - Google Patents

Abstract

The embodiment of the utility model discloses certificate issuing equipment and a certificate making machine, wherein the certificate issuing equipment comprises a printing device for printing paper, a certificate making device arranged at the upper end of the printing device and used for making the paper into a certificate, and a paper guide assembly arranged between the printing device and the certificate making device, wherein the paper guide assembly is used for transmitting the paper printed by the printing device into the certificate making device; the certificate manufacturing device comprises a stamping module, a convex stamping module and a labeling module, wherein the stamping module is used for stamping paper, the convex stamping module is used for stamping the paper, the labeling module is used for labeling the paper, the labeling module is used for reading and writing the paper, and one end of the stamping module is also provided with a scanner which is used for scanning a manufactured certificate, so that the functions of printing, stamping, convex stamping and labeling are realized in a small space, the certificate is scanned after being manufactured, the full automation of certificate manufacturing is realized, and no extra manual operation is needed.

Description

Certificate issuing equipment and certificate making machine

Technical Field

The utility model relates to the technical field of production equipment, in particular to certificate issuing equipment and a certificate making machine.

Background

For the manufacture of certificates, especially paper certificates, the preparation process of these certificates requires many procedures, and the certificate manufacturing process generally comprises: after the certificate paper is printed out from the printer, manually plugging a paper certificate into the paper inlet of each device, and stamping, embossing and labeling the paper in the paper after the paper is sucked by the device, and then flowing out from the paper outlet after the paper is completely stamped.

Therefore, the existing certificate manufacturing equipment still needs a special person to operate in the certificate manufacturing process, workers need to switch between different machines according to preset steps, the certificates are manufactured in one step, and full-automatic manufacturing is not achieved.

Therefore, a new technical solution is needed to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide a certificate issuing apparatus and a certificate maker for achieving the full automation of certificate creation.

A certificate issuing device comprises a printing device for printing paper, a certificate making device arranged at the upper end of the printing device and used for making the paper into a certificate, and a paper guide assembly arranged between the printing device and the certificate making device and used for conveying the paper printed by the printing device into the certificate making device;

the certificate making device comprises a stamping module, a convex stamping module and a labeling module, wherein the stamping module is used for stamping paper, the convex stamping module is used for stamping the paper, the labeling module is used for labeling and reading the paper, and the scanner is arranged at one end of the stamping module and used for scanning a made certificate;

certificate making devices still includes the body frame body, the body frame body includes conveying platform and two and sets up respectively the support frame of conveying platform both sides, stamp module, protruding die piece and subsides mark module all set up in both sides between the support frame.

Furthermore, the front end of the supporting frame is also provided with a lane changing mechanism for changing the conveying direction of the conveying platform, the lower end of the lane changing mechanism is provided with a waste certificate box for recovering unqualified scanned certificates, and the lane changing mechanism comprises a certificate inlet and a certificate outlet for leading out the finished certificates;

the stamping module comprises a stamping mounting frame, a transverse moving slide rail arranged on the stamping mounting frame and a stamping mechanism connected to the transverse moving slide rail in a sliding mode, the transverse moving slide rail is arranged on one side of the stamping mounting frame, a transverse moving stepping motor is arranged on the other side of the stamping mounting frame, and the transverse moving stepping motor drives the stamping mechanism to move on the transverse moving slide rail through a synchronous belt.

Furthermore, the stamping mechanism comprises a stamping moving frame which is connected with the transverse sliding rail in a sliding manner, a cam and a stamping direct current motor for driving the cam to rotate are arranged on the stamping moving frame, and a wet printing mounting plate and a wet printing assembly which is arranged on the wet printing mounting plate through an elbow clamp are arranged below the cam;

the wet printing subassembly include with the installation piece that the wet printing mounting panel is connected, be used for carrying out the wet seal and the setting of stamping to the paper are in the installation piece with the spring of stamping between the wet seal, the outside of wet seal is provided with the cover that flattens that is used for pressing paper.

Furthermore, the convex die module comprises a paper carrying strip and a paper pressing strip which are arranged along the direction of the conveying platform, the paper pressing strip is arranged above the paper carrying strip, and a reaching strip for assembling the paper carrying strip and the paper pressing strip is arranged between the supporting frames on two sides;

protruding die piece is still including setting up in both sides public scale axle and female scale axle between the support frame, public scale axle with female scale is epaxial to be provided with public seal and female seal respectively, public seal with female seal looks adaptation just is used for pressing protruding seal to the paper, wherein one side be provided with on the support frame and be used for the drive public scale axle with female scale axle is to pivoted gear drive structure in opposite directions.

Furthermore, the labeling module comprises a label tape providing assembly, a tape winding wheel assembly, a label removing assembly and a label fixing and reading and writing assembly, wherein the label tape providing assembly is arranged on the support frame on one side and is used for providing a label tape of a label roll, the tape winding wheel assembly is arranged between the support frames on two sides and is located below the label tape providing assembly and used for conveying the label tape and counting the steps of the label tape, the label removing assembly is arranged between the support frames on two sides and is located below the tape winding wheel assembly and used for separating labels of the label tape from tape paper, and the label fixing and reading and writing assembly is arranged on the conveying platform and is located in the label discharging direction of the label removing assembly and used for firmly adhering the labels to products.

The label providing assembly comprises an installation frame, a label installation part and a waste tape recovery part, wherein the installation frame is arranged at the upper end of the support frame on one side of the support frame, the label installation part and the waste tape recovery part are respectively arranged on one side, facing the conveying platform, of the installation frame, and a reader-writer is arranged in the installation frame;

the label mounting part comprises a fixed seat arranged on the mounting frame, a graduated tube inserted on the fixed seat, a carrier wheel which is rotatably connected on the graduated tube and used for mounting the label, and a retainer ring which is sleeved on the graduated tube and used for fixing the carrier wheel;

the waste tape recovery part includes through recovery part bearing rotate connect in the spool of mounting bracket, set up be in on the mounting bracket and with bearing frame, the cover of recovery part bearing adaptation are established just be used for the reelpipe of rolling waste tape and set up on the spool and be used for pressing from both sides the area clamp of tight waste tape, the slot has been seted up along the axial on the lateral wall of reelpipe, the area clamp insert establish in the slot, be provided with on the baffle and be used for leaning on the carrier wheel inside wall is in order to produce damped elastic pressing plate.

Further, the belt winding wheel assembly comprises a mounting rod arranged on the support frame, a sleeve pin sleeved on the mounting rod and a roller which is rotatably connected to the sleeve pin and used for winding the label belt, the roller is rotatably connected to the sleeve pin through a label winding wheel bearing, and the sleeve pin is detachably connected to the mounting rod through a fastener;

the winding pulley component further comprises a step counting sensor, a coded disc is arranged at one end, facing the step counting sensor, of the roller, and the step counting sensor is arranged on the sleeve pin and used for sensing the coded disc to rotate so as to count steps.

The label removing assembly comprises a label removing part and a label removing elastic pressing part, the label removing part comprises a label pressing plate, a label peeling blade arranged at the front end of the label pressing plate and a label peeling tail pressing plate arranged on one side of the label peeling blade, short shafts are respectively arranged on two sides of the label pressing plate, the label pressing plate is rotatably connected to the main frame body through the short shafts, and the label removing elastic pressing part is arranged on one side of the label pressing plate;

the label removing component also comprises a label removing sensing part arranged in the label removing direction of the label removing part, and the label removing sensing part comprises a sensor mounting frame arranged on the main frame body, a sensor mounting plate arranged on the sensor mounting frame and a label removing detection sensor arranged on the sensor mounting plate; be provided with the sensor mounting groove on the sensor mounting bracket, the sensor mounting groove is followed the length direction of sensor mounting bracket is seted up, the sensor mounting panel pass through the fastener can dismantle connect in the sensor mounting groove, go out mark detection sensor correspond set up in the station of mark area.

Further, the label fixing read-write component comprises a label pressing wheel part and a read-write part, and the read-write part is arranged in the paper outlet direction of the label pressing wheel part; the label pressing wheel part comprises a pressing wheel seat, pressing wheel rotating shafts arranged at two ends of the pressing wheel seat and a label fixing pressing wheel which is rotatably connected to the pressing wheel seat and used for pressing a label on a conveyed paper, and the pressing wheel seat is rotatably connected to the supporting frame through the pressing wheel rotating shafts at two ends;

the reading and writing part comprises an antenna mounting plate arranged on the conveying platform, a position adjusting plate detachably connected to the antenna mounting plate and an antenna plate arranged on the position adjusting plate and used for reading and writing information of the tag.

A certificate authority apparatus as claimed in any one of the above claims, and an apparatus housing for accommodating and fitting the certificate authority apparatus, the apparatus housing comprising a main housing, a front panel provided at a front end of the main housing, and an operation platform provided at a lower end of the front panel;

be provided with touch display screen, setting on the front panel the surveillance camera head of touch display screen top and set up respectively the receipt printer and the ID card reader of touch display screen below, last signature panel, POS machine and the bar code rifle of being provided with of operation platform, the front panel with be provided with the card entrance between the operation platform.

The embodiment of the utility model has the following beneficial effects:

the certificate issuing equipment integrates the printing, stamping, embossing and labeling functional modules, is used for fully automatically manufacturing the certificate, and realizes full automation of certificate manufacturing without additional manual operation; meanwhile, after the certificate is manufactured, the scanner is used for scanning and detecting, and the certificate manufacturing quality is ensured.

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 description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

fig. 1 is a schematic diagram of the internal structure of the certificate issuing apparatus in the present embodiment.

Fig. 2 is a schematic diagram of a side structure of the certificate issuing apparatus in the present embodiment.

Fig. 3 is a side view of the certificate making apparatus in the present embodiment.

Fig. 4 is a schematic view of the overall structure of the certificate making apparatus in this embodiment.

Fig. 5 is a schematic view of the entire structure of the lane changing mechanism in the present embodiment.

Fig. 6 is a schematic view of the overall structure of the stamping module in this embodiment.

Fig. 7 is a schematic view of the overall structure of the embossing module in this embodiment.

Fig. 8 is a schematic view of the overall structure of the labeling module in this embodiment.

Fig. 9 is a schematic view of the internal structure of the main frame for assembling the labeling module according to the present embodiment.

Fig. 10 is an exploded view of the bandolier supply assembly in this embodiment.

Fig. 11 is an exploded view of the wheel-encircling assembly of this embodiment.

Fig. 12 is a schematic structural diagram of the label removing assembly in the present embodiment.

Fig. 13 is an enlarged view at a in fig. 12.

Fig. 14 is a schematic structural diagram of the mark fixing read-write assembly in the embodiment.

Fig. 15 is a schematic view of the entire structure of the certificate maker of the present embodiment.

In the figure, 10, the main frame body; 110. a conveying platform; 120. a support frame; 20. labeling the module; 30. a scanner; 40. a printing device; 50. a paper guide assembly; 51. a first paper guide; 52. a second paper guide; 60. a paper flow path; 70. a lane changing mechanism; 80. a stamping module; 90. an embossing module; 200. a tape supply assembly; 210. A mounting frame; 220. a label mounting section; 221. a fixed seat; 222. a graduated tube; 223. a carrier wheel; 224. a retainer ring; 225. an elastic pressure plate; 2251. a screw passing hole; 230. a waste tape recovery unit; 231. a reel; 232. a bearing seat; 233. pipe coiling; 2331. a slot; 234. a belt clip; 235. a recovery part bearing; 236. a positioning ring; 237. A recovery section synchronizing wheel; 238. a synchronous belt; 239. a drive motor; 240. a reader/writer; 250. aligning the reference plate; 300. winding a pulley assembly; 310. mounting a rod; 320. sleeving a pin; 330. a drum; 340. a label wheel winding bearing; 350. a step-counting sensor; 360. code disc; 400. a label removing component; 410. a label removing part; 411. pressing the label plate; 412. stripping a label edge; 413. stripping a label tail paper pressing plate; 414. a minor axis; 420. removing the label pressing part; 430. a mark-out sensing part; 431. a sensor mounting bracket; 432. a sensor mounting plate; 4321. a sensor mounting groove; 433. A mark detection sensor; 500. a fixed mark read-write component; 510. a marking wheel part; 511. a pressure wheel seat; 512. a pinch roller rotating shaft; 513. fixing the label pressing wheel; 520. a read/write section; 521. an antenna mounting plate; 522. a position adjusting plate; 523. An antenna board; 530. pressing the label pressing part; 610. an upper runner; 620. a flow passage is horizontally moved; 601. discharging strips; 602. upward strips are reached; 603. a olecranon piece; 604. a crossing bearing; 710. a lane-changing gate; 720. a lane changing gripper; 730. a paper outlet; 740. a lane changing frame body; 750. a crankshaft; 760. a lane changing slide block; 770. a lane-changing guide rail; 780. the waste certificate box is provided with an arc strip; 810. a seal mounting rack; 820. transversely moving the sliding rail; 830. a traversing stepping motor; 840. a stamping moving frame; 850. a cam; 860. stamping a direct current motor; 870. wet printing the mounting plate; 871. A compression spring; 880. an elbow clip; 890. a wet printing component; 891. mounting blocks; 892. a wet-printed part; 893. a seal pressing spring; 894. flattening the cover; 910. carrying paper strips; 920. pressing the paper strips; 930. embossing the strips; 940. a male scale shaft; 950. a female scale shaft; 960. printing; 970. mother printing; 1000. an equipment housing; 1100. a main housing; 1200. a front panel; 1210. a touch display screen; 1220. a surveillance camera; 1230. a receipt printer; 1240. an identity card reader; 1300. an operating platform; 1310. a signature panel; 1320. a POS machine; 1330. A bar code gun; 1400. an entrance and exit.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A certificate issuing apparatus, as shown in fig. 1 and 2, includes a printing device 40 for printing paper, a certificate making device disposed at an upper end of the printing device 40 for making paper into a certificate, and a paper guide assembly 50 disposed between the printing device 40 and the certificate making device, wherein the paper guide assembly 50 is used for conveying the paper printed by the printing device 40 into the certificate making device.

The certificate making device comprises a stamping module 80, an embossing module 90 and a labeling module, wherein the stamping module 80 is used for stamping paper, the embossing module 90 is used for embossing the paper, the labeling module is used for labeling the paper, the labeling module is used for reading and writing the paper, and a scanner 30 used for scanning a manufactured certificate is further arranged at one end of the stamping module 80.

The paper guiding assembly 50 includes a first paper guiding component 51 and a second paper guiding component 52, the paper does not pass through the first paper guiding component 51 and the second paper guiding component 52 after being printed by the printing device 40, the paper is guided into the flow channel of the certificate making, the paper is stamped by the stamping module 80 under the driving of a rubber wheel of the certificate making flow channel, the paper is stamped by the embossing module 90, the paper is labeled by the labeling module 20 and is read and written, then the paper is subjected to backflow scanning, and the certificate is output from the exit.

The main frame body 10 comprises a conveying platform 110 used for conveying paper, two sides of the conveying platform 110 are respectively provided with a support frame 120 used for supporting the conveying platform 110, the support frame 120 is arranged in a hollow mode, and a power structural member used for transmission is arranged inside the support frame 120. It should be noted that the power structural component is not the main point of protection of the present application, and any structure capable of providing power support may be applied to the present embodiment. The stamping module 80, the convex stamping module 90 and the labeling module are arranged between the supporting frames 120 on two sides.

The front end of support frame still is provided with and is used for changing conveying platform direction of transfer's lane change mechanism 70, the lower extreme of lane change mechanism 70 is provided with the useless certificate case that is used for retrieving the unqualified certificate of scanning, lane change mechanism 70 is including the discrepancy certificate mouth that is used for exporting the certificate that the preparation was accomplished. When the waste certificate is recovered, the waste certificate is put in from the certificate outlet, and the waste certificate is driven by the runner rubber wheel to flow through the scanner 30 for scanning, and then flows back to the waste certificate box through the channel changing mechanism 70.

Specifically, the paper is conveyed by conveying platform, and is driven 7 axle linkages by two step motor during the transport altogether, and the driving rubber tyer is being adorned on the universal driving shaft, and the driving rubber tyer is compressed tightly by driven pinch roller, and driven rubber tyer dress is in carrying the pivot, carries the both ends of pivot and is installing and carry the suppress portion. Wherein, suppress the structure and include the spring link plate, the extension spring is being drawn on the spring link plate, and the extension spring produces the power that makes the transport pivot rotatory for driven pinch roller compresses tightly on the initiative rubber tyer. The paper flows away between the paper flow channels by means of the friction force of the driving rubber wheel and the driven pinch wheel.

As shown in fig. 3, the sheet flow path 60 includes a sheet carrier mounted on the lower strip 601 and a sheet pressing member mounted on the upper strip 602, and a gap formed between the sheet carrier and the sheet pressing member is a flow path. On the side where the printing apparatus 40 is engaged with the certificate making apparatus, a olecranon 603 is provided, and the olecranon 603 serves as both a paper pressing member for the upward flow path 610 and a paper carrier for the horizontal flow path 620.

The paper flow path 60 includes an upper flow path 610 and a horizontal flow path 620, and a crossing bearing 604 mounted on the olecranon member 603 with screws at the three fork openings of the upper flow path 610 and the horizontal flow path 620, and functions to generate deformation when the paper is horizontally moved through the opening of the upper flow path 610 and to cross the opening of the upper flow path 610.

In this embodiment, as shown in fig. 4 and 5, the lane changing mechanism 70 is disposed on the certified paper discharging side, the lane changing mechanism 70 is specifically a geneva mechanism, and includes a lane changing gate 710, a lane changing hand 720 disposed at the lower end of the lane changing gate 710, and a paper discharging port 730 disposed at the upper middle part of the lane changing gate 710, the lane changing gate 710 is connected to a lane changing frame 740 disposed on the support frame, a crankshaft 750 is disposed on the lane changing frame 740, a bearing is mounted on the crankshaft 750, the bearing, and the lane changing gate 710 form a geneva structure, the bearing is used for reducing friction during movement, and the lane changing gate 710 is connected to the crankshaft 750 through the bearing.

The lane-changing gate 710 drives a crankshaft 750 to rotate through a motor, the crankshaft 750 drives the lane-changing gate 710 to move up and down, and a lane-changing gripper 720 is arranged on the gate. When the paper needs to be horizontally fed and discharged, the motor drives the lane-changing gate 710 to move downwards, the upper plane of the lane-changing gripper 720 is level with the paper-loading plane of the horizontal moving channel 610, the gripper is used as a paper-loading part, and the paper can be horizontally fed and discharged at the paper outlet 730.

When the required paper enters the waste certificate flow channel, the motor drives the lane changing gate 710 to move upwards, lane changing slide blocks 760 are arranged on two sides of the lane changing gate 710, a lane changing guide rail 770 is arranged on the lane changing frame body 740, the lane changing slide blocks 760 are slidably mounted on the lane changing guide rail 770, the lower arc surface of the lane changing gripper 720 is connected with the upper paper pressing surface of the flat walking flow channel 610, the paper outlet 730 of the flat walking flow channel 610 is closed, and meanwhile, the lane changing gripper 720 becomes a paper pressing piece. Wherein, combine shown in fig. 2, the top of card case useless is provided with into card case useless arc strip 780, and card case useless is not shown in the figure, and lane changing tongs 720 is crooked according to predetermined cambered surface with the combined action of going into card case useless arc strip 780 down paper, and the flow of diversion is into the card runner useless.

As shown in fig. 6, the stamping module 80 includes a stamping mounting rack 810, a traverse slide 820 disposed on the stamping mounting rack 810, and a stamping mechanism slidably connected to the traverse slide 820, the traverse slide 820 is disposed on one side of the stamping mounting rack 810, a traverse stepping motor 830 is disposed on the other side of the stamping mounting rack 810, and the traverse stepping motor 830 drives the stamping mechanism to move on the traverse slide 820 through a synchronous belt.

The stamping mechanism comprises a stamping moving frame 840 connected with the transverse sliding rail 820 in a sliding mode, a cam 850 and a stamping direct current motor 860 used for driving the cam 850 to rotate are arranged on the stamping moving frame 840, and a wet printing mounting plate 870 and a wet printing assembly 890 arranged on the wet printing mounting plate 870 through an elbow clamp 880 are arranged below the cam 850.

Wet printing subassembly 890 includes with installation piece 891 that wet printing mounting panel 870 is connected, be used for the wet printing 892 that stamps to the paper and set up installation piece 891 with the stamp spring 893 between the wet printing 892, the outside of wet printing 892 is provided with the cover 894 that flattens that is used for the pressure paper.

Specifically, the stamping action of the stamping module 80 is realized by the cam 850 structure. The stamping DC motor 860 drives the cam 850 to rotate, the wet printing mounting plate 870 moves up and down under the action of the cam 850, and the wet printing assembly 890 clamped on the wet printing mounting plate 870 by the elbow clip 880 moves up and down to stamp. The whole stamping mechanism is arranged on the transverse moving slide rail 820, the synchronous belt is driven by the transverse moving stepping motor 830 to drive the stamping mechanism, and the stamping mechanism can transversely move left and right. When a certain specific position on the paper needs to be stamped, the position in the X-axis direction is reached by the stamping mechanism driven by the synchronous belt, and the position in the Y-axis direction is reached by the paper moving platform.

The lower end of the pressing cover 894 is also provided with a backing plate, which is the backing plate during stamping and is also a paper carrier for paper to flow away. The flattening cover 894 plays a role of pressing paper when the paper flows away, and also plays a role of flattening the paper first when stamping. In this embodiment, wet seal slider is equipped with behind wet seal mounting panel 870, be equipped with vertical slide rail on the mounting bracket 810 that stamps, wet seal mounting panel 870 vertical motion, and install on wet seal mounting bracket through compression spring 871, under compression spring 871's elastic force effect, wet seal mounting panel 870 is in unsettled position, when needs stamp, stamping direct current motor 860 drive cam 850, overcome compression spring 871's elasticity for wet seal mounting panel 870 drives wet seal 892 and stamps downwards.

As shown in fig. 9, the embossing module 90 includes a paper carrying strip 910 and a paper pressing strip 920 arranged along the direction of the conveying platform, the paper pressing strip 920 is arranged above the paper carrying strip 910, and an embossing strip 930 for assembling the paper carrying strip 910 and the paper pressing strip 920 is arranged between the supporting frames at two sides.

Raised stamp module 90 is still including setting up in both sides public scale shaft 940 and female scale shaft 950 between the support frame, public scale shaft 940 with be provided with public seal 960 and female seal 970 on the female scale shaft 950 respectively, public seal 960 with female seal 970 looks adaptation just is used for pressing the raised seal to paper, one of them side be provided with on the support frame and be used for the drive public scale shaft 940 with female scale shaft 950 is the gear drive structure of pivoted in opposite directions.

Specifically, the embossing mold 90 is rotated by the synchronized gears driving a pair of gears respectively installed on the male scale shaft 940 and the female scale shaft 950 to be engaged with each other, so that the male scale shaft 940 and the female scale shaft 950 are rotated in opposite directions, and the male seal 960 and the female seal 970 respectively installed on the male scale shaft 940 and the female scale shaft 950 are rotated in opposite directions.

When the position to be embossed of the paper flows between the male seal 960 and the female seal 970, the male seal 960 and the female seal 970 start to rotate in a meshing way under the driving of the embossing stepping motor, and the marks are rolled on the paper. The male seal 960 and the female seal 970 are opposite in two flat positions when embossing is not needed, and paper flows away from the two flat positions when embossing is not needed. When the positions of the male seal 960 and the female seal 970 are to be adjusted transversely, the middle two pairs of the paper pressing strip 920 and the paper carrying strip 910 which are arranged on the reach strip are detached, and the top thread screws on the flat positions of the male seal 960 and the female seal 970 are unscrewed, moved to the required positions along the respective scale axes and fastened.

In this embodiment, as shown in fig. 8 and 9, the labeling module 20 includes a label supplying assembly 200, a winding pulley assembly 300, a label removing assembly 400, and a label fixing read/write assembly 500.

The tape providing assembly 200 is disposed on one of the two sides of the supporting frame 120, and on one side of the main frame 10, the tape providing assembly 200 is used for installing a label roll, pulling a tape to continuously label and recovering the tape. The tape winding assembly 300 is disposed between the supporting frames 120 at both sides, is located below the tape supply assembly 200, and is used to transfer the tape, to allow the tape to revolve in a certain manner, to allow the tape to enter the tape removing assembly 400 at a predetermined angle, and to count the step of the tape, so as to sense the moving length of the tape. The label removing assembly 400 is disposed between the supporting frames 120 at both sides and below the tape winding assembly 300, and is used for separating the label of the label tape from the tape. The label fixing read-write assembly 500 is arranged on the conveying platform 110 and located in the label discharging direction of the label removing assembly 400, and is used for firmly adhering a label on paper in a rolling manner and writing required information into the label.

As shown in fig. 9 and 10, the label providing assembly 200 includes a mounting frame 210, a label mounting portion 220, and a waste tape recovery portion 230, the mounting frame 210 is disposed at an upper end of the supporting frame 120 at one side thereof, the label mounting portion 220 and the waste tape recovery portion 230 are respectively disposed at one side of the mounting frame 210 facing the conveying platform 110, and a reader 240 is disposed in the mounting frame 210.

The volume mounting part 220 includes a fixing seat 221, a graduated tube 222, a carrier wheel 223 and a retainer ring 224, the fixing seat 221 is fixedly assembled on the mounting bracket 210, and the graduated tube 222 is inserted into the fixing seat 221, so that the graduated tube 222 is fixed on the mounting bracket 210 through the fixing seat 221. The carrier wheel 223 is rotatably connected to the graduated tube 222 and can rotate around the graduated tube 222, and the carrier wheel 223 is used for fixedly assembling the label. The retainer ring 224 is sleeved on the graduated tube 222 and fixed by a jackscrew, and the retainer ring 224 is used for preventing the label from moving along the axial direction of the graduated tube 222 when the label rotates.

Preferably, the retainer ring 224 is provided with an elastic pressing plate 225, the elastic pressing plate 225 is mounted on the retainer ring 224 and is pressed against the outer circle of the inner tube of the carrier wheel 223 by means of its own deformation elasticity, the elastic pressing plate 225 is used for generating damping and eliminating inertia of the carrier wheel 223 during rotation, and the elastic pressing plate 225 is provided with a screw through hole 2251 for adjusting pressing force, and the pressing force is adjusted within a wide range by a screw. Wherein one side of the carriage wheel 223 is provided with an alignment reference plate 250 for easy assembly.

The scrap tape recovering part 230 includes a reel 231, a bearing housing 232, a reel pipe 233, and a tape clamp 234, the reel 231 is rotatably coupled to the mounting bracket 210 by a recovering part bearing 235, the bearing housing 232 is provided on the mounting bracket 210, and the bearing housing 232 is fitted to the recovering part bearing 235. The reel pipe 233 is sleeved on the reel 231, the reel 231 is used for winding waste tapes, and the tape clamp 234 is used for clamping the waste tapes wound on the reel 231. Specifically, an insertion groove 2331 is formed in a side wall of the roller tube 233, the insertion groove 2331 is formed along an axial direction of the roller tube 233, and the belt clip 234 is inserted into the insertion groove 2331. The reel 231 is arranged, so that the waste tape is convenient to take down, and the waste tape clamp 234 is tightly clamped on the reel pipe 233 through the tape clamp 234, so that the waste tape is convenient to disassemble.

An anti-drop screw is disposed between the roller pipe 233 and the reel 231, and the roller pipe 233 rotates along with the reel 231 under the action of the anti-drop screw.

When the label tape needs to be tightened, the tape clip 234 is pulled out in the axial direction, the label tape is wound around the scale tube 222 by one turn, the roll tube 233 is screwed so that the anti-drop screw is positioned at the bottom of the insertion groove 2331 of the roll tube 233, the tape clip 234 is inserted along the axial insertion groove 2331 of the roll tube 233, the label tape is pressed against the roll tube 233 by the tape clip 234, and the carrying wheel 223 is screwed so that the label tape is wound by one turn.

When the scrap tape needs to be removed, the tape clip 234 is pulled out, the roller pipe 233 is then pulled out by rotating the roller pipe 233 counterclockwise by 90 degrees, the scrap tape fitted around the roller pipe 233 is removed, the insertion groove 2331 is aligned with the anti-drop screw, the roller pipe 231 is inserted into the roller pipe 233 and rotated clockwise by 90 degrees, and finally the tape clip 234 is inserted into the insertion groove 2331.

The recycling portion bearing 235 is connected to a recycling portion synchronizing wheel 237 through a positioning ring 236, the recycling portion synchronizing wheel 237 is axially matched with the recycling portion bearing 235, the recycling portion synchronizing wheel 237 is connected to a driving motor 239 through a synchronizing belt 238, and the driving motor 239 drives the reel 231 to rotate through the recycling portion synchronizing wheel 237. Specifically, at least one positioning ring 236 is disposed between the recovery part bearing 235 and the recovery part synchronizing wheel 237, and the recovery part synchronizing wheel 237 is mounted on the side surface of the mounting frame 210.

As shown in fig. 11, the tape winding pulley assembly 300 includes a mounting rod 310, a sleeve pin 320 and a roller 330, the mounting rod 310 is fixedly connected to one side of the supporting frame 120, the sleeve pin 320 is sleeved on the mounting rod 310, the roller 330 is rotatably connected to the sleeve pin 320 through a tape winding wheel bearing 340, and the roller 330 is used for winding the tape. When assembling, the roller 330 is mounted on the sleeve pin 320 together with the reel bearing 340, and the sleeve pin 320 is fixed on the mounting rod 310 by a jackscrew.

The tape winding wheel assembly 300 further comprises a step counting sensor 350, a code wheel 360 is arranged at one end of the roller 330 facing the step counting sensor 350, and the step counting sensor 350 is arranged on the sleeve pin 320 and is used for sensing the rotation of the code wheel 360 to count steps. Specifically, the code wheel 360 includes a plurality of grids circumferentially disposed on the edge of the drum 330, the grids are uniformly distributed, and the step-counting sensor 350 is provided with an induction groove corresponding to the grids. The grids sequentially pass through the induction groove body during rolling rotation, and the step counting sensor 350 senses the passing condition of the grids, so that the step counting function is realized.

During the movement of the tape, the tape pulls the roller 330 to rotate, and the step-counting sensor 350 senses the rotation of the code wheel 360 of the roller 330 to count the steps. When it is desired to adjust the axial position of the roller 330, the jackscrew on the sleeve pin 320 is loosened, and the entire roller 330, reel bearings 340 and sleeve pin 320 assembly can be axially adjusted in position on the mounting bar 310.

As shown in fig. 12 and 13, the label removing assembly 400 includes a label removing portion 410 and a label removing and pressing portion 420, and the label removing portion 410 includes a label pressing plate 411, a label peeling blade 412, and a label peeling tail pressing plate 413. The label pressing plate 411 is used for enabling labels to tightly attach to the upper surface of the cutting edge when entering the label peeling blade 412, so that the label tape is guaranteed to be tensioned all the time, the label peeling blade 412 is arranged at the front end of the label pressing plate 411, the label peeling blade 412 is mainly used for separating labels from the tape after the labels move through the cutting edge, and a label peeling tail paper pressing plate 413 is arranged on one side of the label peeling blade 412.

The label pressing plate 411 is rotatably connected to the main frame 10 through the short shafts 414, that is, the label pressing plate 411 is mounted on the two short shafts 414, and the label releasing and pressing part 420 is disposed on one side of the label pressing plate 411. Specifically, the label releasing and pressing part 420 generates a rotation moment on the stub shaft 414 by a pulling force, so that the label pressing plate 411 mounted on the stub shaft 414 presses the label tape.

The label removing assembly 400 further comprises a label removing sensing part 430 arranged in the label removing direction of the label removing part 410, wherein the label removing sensing part 430 comprises a sensor mounting frame 431 arranged on the main frame body 10, a sensor mounting plate 432 arranged on the sensor mounting frame 431 and a label removing detection sensor 433 arranged on the sensor mounting plate 432, and the label removing detection sensor 433 is used for detecting whether a label is separated from a belt or not.

Be provided with sensor mounting groove 4321 on the sensor mounting bracket 431, sensor mounting groove 4321 is followed the length direction of sensor mounting bracket 431 is seted up, sensor mounting plate 432 pass through the fastener can dismantle connect in sensor mounting groove 4321, promptly, mark out detects sensor 433 and sensor mounting plate 432 and installs together on sensor mounting bracket 431, and its lateral position can be adjusted on sensor mounting bracket 431. During assembly, the mark-out detection sensor 433 is correspondingly arranged on the station of the mark belt.

As shown in fig. 12 to 14, the label fixing read/write unit 500 includes a label pressing wheel unit 510 and a read/write unit 520, and the read/write unit 520 is disposed in a paper discharge direction of the label pressing wheel unit 510. Marking wheel portion 510 includes pinch roller seat 511, sets up pinch roller pivot 512 and the rotation at pinch roller seat 511 both ends connect in pinch roller seat 511 just is used for the solid mark pinch roller 513 that compresses tightly the label on the paper of carrying, pinch roller seat 511 passes through both ends pinch roller pivot 512 rotate connect in support frame 120. The solid label pressing wheel 513 is a wheel covering the whole transverse labeling area, the solid label pressing wheel 513 is a driven wheel, a driving wheel of the solid label pressing wheel is a row of driving rubber wheels which are tightly arranged in the labeling area, and through the structure, labels coated on paper surfaces are tightly pressed when paper is transported. One end of the pressing wheel seat 511 is also provided with a pressing mark elastic pressing part 530.

The reader/writer 520 includes an antenna mounting plate 521 provided on the conveying platform 110, a position adjustment plate 522 detachably connected to the antenna mounting plate 521, and an antenna plate 523 provided on the position adjustment plate 522 and used for reading and writing information of the tag. The reading and writing functions of the tag are completed by the antenna plate 523, the antenna plate 523 is installed on the position adjusting plate 522, and the antenna installing plate 521 is used for paper pressing and simultaneously realizes the transverse position adjustment of the antenna plate 523 and the position adjusting plate 522.

In this embodiment, when the labeling position needs to be changed, the band clamp 234 is pulled out to cut off the waste label band, the jackscrew on the retainer ring 224 of the labeling assembly, the jackscrew on the sleeve pin 320 of the winding band assembly 300 and the jackscrew on the alignment reference plate 250 are loosened, the alignment reference plate 250 is pushed by hand to axially move the winding band wheel to a desired position together with the carrier wheel 223 with the label roll, and the label band is wound around the roller 330 and the label peeling blade 412 on the roller tube 233 of the labeling installation assembly and clamped by the band clamp 234. If the label tape is wound at the position where the label peeling tail paper pressing plate 413 is mounted, the label peeling tail paper pressing plate 413 is detached from the label peeling blade 412 and is changed to another mounting hole for mounting the label peeling tail paper pressing plate 413 on the label peeling blade 412.

Then, screws for connecting the sensor mounting plate 432 and the sensor mounting frame 431 on the label removing assembly 400 are loosened, the label detecting sensor 433 is transversely moved to a position where the label tape bypasses the label removing blade 412, and then the label detecting sensor is screwed and fixed; the screws for fixing the position adjustment plate 522 to the antenna mounting plate 521 in the label fixing read/write assembly 500 are removed, the position adjustment plate 522 with the antenna plate 523 mounted thereon is moved to a corresponding detectable position where the label flows through, and then the corresponding screw hole is found on the antenna mounting plate 521 instead of the position adjustment plate 522, wherein after the position is reached, fine adjustment can be performed through the long hole on the position adjustment plate 522.

Finally, all the jackscrew screws of a row of tightly-arranged driving rubber wheels under the label fixing pressing wheel 513 are unscrewed, and the row of driving rubber wheels are moved to the position where the label flows and screwed, so that the transverse installation of the labeling position is completed; the longitudinal position of the labeling position is automatically controlled by paper conveying.

This application system card machine's each functional unit adopts vertical structural design, flow direction according to the mark area sets gradually the mark area provides the subassembly, around band pulley subassembly and take off mark subassembly, one side taking off mark subassembly sets up solid mark read-write subassembly, thereby realize in proper order that the mark area provides, the mark area direction, the label breaks away from and information read-write function, it has reduced the volume to compare traditional certificate issuing equipment, space has been saved through reasonable structural design promptly, therefore, need not to occupy great space in the equipment, facilitate for the assembly of other mechanisms.

The certificate issuing equipment in the prior art generally lacks the scanning function of labels, cannot realize electronic encryption, and cannot recover the retained file. Through the design of this embodiment, in the manufacture process of certificate, can accomplish automatic electronic tags that pastes and read and write encryption. The automatic labeling and step counting device has the advantages that the automatic labeling is realized, the automatic step counting function of the label tape is realized, and therefore the label is accurately positioned.

Meanwhile, the traditional certificate making machine usually corresponds to a piece of equipment for making several specific certificates, so that the labeling stations are fixed, or only a plurality of preset stations can be installed and switched, and the large-amplitude in-plane arbitrary adjustment cannot be realized. The position of the label can be adjusted in the large breadth of the paper, convenience is provided for users, and installation and maintenance personnel can conveniently operate.

The present embodiment also provides a certificate maker, which includes a certificate issuing apparatus and an apparatus housing 1000 for accommodating and assembling the certificate issuing apparatus, as shown in fig. 15, where the apparatus housing 1000 includes a main housing 1100, a front panel 1200 disposed at a front end of the main housing 1100, and an operation platform 1300 disposed at a lower end of the front panel 1200.

The front panel 1200 is provided with a touch display screen 1210, a monitoring camera 1220 arranged above the touch display screen 1210, a receipt printer 1230 and an identification card reader 1240 which are respectively arranged below the touch display screen 1210, the operation platform 1300 is provided with a signature board 1310, a POS machine 1320 and a barcode gun 1330, the access opening 1400 is arranged between the front panel 1200 and the operation platform 1300, wherein the access opening 1400 is correspondingly arranged on the lane change mechanism 70.

In conclusion, the printing device of the application guides the paper to the certificate making device through the paper guide assembly after printing, the paper feeding speed of the certificate making device is the same as the paper discharging speed of the printer, and the paper butt joint automation is realized. The electronic label is automatically pasted and the read-write encryption is carried out in the certificate manufacturing process, and the pasting position can be randomly adjusted in a larger format of the paper. The card making module is internally provided with a scanner which can scan and leave files for old cards and automatically send the old cards into a waste card box. The position of the stamp is changed by the driving of the motor, and the stamp can be adjusted randomly in a larger width of paper. The male seal and the female seal can be installed at different positions to realize that the embossing can be randomly adjusted in a larger paper width surface.

Through the system certificate machine of this application, can realize that the oneself is got the evidence by oneself, other people take the place of and function such as small batch system certificate to detection mechanism is sound, and there is the scanning to detect equipment inside, and the certificate surface information of the certificate that makes need can be sent to the certificate of drawing the certificate staff after detecting qualified, has ensured system certificate quality.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the utility model is not limited by the scope of the appended claims.

Claims (10)

1. A certificate issuing device is characterized by comprising a printing device for printing paper, a certificate making device which is arranged at the upper end of the printing device and is used for making the paper into a certificate, and a paper guide assembly which is arranged between the printing device and the certificate making device and is used for conveying the paper printed by the printing device into the certificate making device;

the certificate making device comprises a stamping module, a convex stamping module and a labeling module, wherein the stamping module is used for stamping paper, the convex stamping module is used for stamping the paper, the labeling module is used for labeling and reading the paper, and the scanner is arranged at one end of the stamping module and used for scanning a made certificate;

certificate making devices still includes the body frame body, the body frame body includes conveying platform and two and sets up respectively the support frame of conveying platform both sides, stamp module, protruding die piece and subsides mark module all set up in both sides between the support frame.

2. The certificate issuing equipment according to claim 1, wherein a lane changing mechanism for changing the conveying direction of the conveying platform is further arranged at the front end of the supporting frame, a waste certificate box for recovering a certificate which is unqualified in scanning is arranged at the lower end of the lane changing mechanism, and the lane changing mechanism comprises a certificate inlet and a certificate outlet for leading out a finished certificate;

the stamping module comprises a stamping mounting frame, a transverse moving slide rail arranged on the stamping mounting frame and a stamping mechanism connected to the transverse moving slide rail in a sliding mode, the transverse moving slide rail is arranged on one side of the stamping mounting frame, a transverse moving stepping motor is arranged on the other side of the stamping mounting frame, and the transverse moving stepping motor drives the stamping mechanism to move on the transverse moving slide rail through a synchronous belt.

3. The certificate issuing apparatus according to claim 2, wherein the stamping mechanism includes a stamping moving frame slidably connected to the traverse slide, the stamping moving frame being provided with a cam and a stamping dc motor for driving the cam to rotate, a wet printing mounting plate being provided below the cam, and a wet printing assembly being provided on the wet printing mounting plate via an elbow clamp;

the wet printing subassembly include with the installation piece that the wet printing mounting panel is connected, be used for carrying out the wet seal and the setting of stamping to the paper are in the installation piece with the spring of stamping between the wet seal, the outside of wet seal is provided with the cover that flattens that is used for pressing paper.

4. The certificate issuing apparatus according to claim 1, wherein the raised die block includes a paper carrying strip and a paper pressing strip arranged in the direction of the transport platform, the paper pressing strip is arranged above the paper carrying strip, and a reach strip for assembling the paper carrying strip and the paper pressing strip is arranged between the support frames on both sides;

protruding die piece is still including setting up in both sides public scale axle and female scale axle between the support frame, public scale axle with female scale is epaxial to be provided with public seal and female seal respectively, public seal with female seal looks adaptation just is used for pressing protruding seal to the paper, wherein one side be provided with on the support frame and be used for the drive public scale axle with female scale axle is to pivoted gear drive structure in opposite directions.

5. The certificate issuing apparatus according to claim 1, wherein the labeling module includes a label supply unit disposed on the support frame on one side thereof for supplying a label of the label roll, a tape winding wheel unit disposed between the support frames on both sides and below the label supply unit for conveying the label and counting the steps of the label, a label releasing unit disposed between the support frames on both sides and below the tape winding wheel unit for separating a label and a tape of the label, and a label fixing read/write unit disposed on the conveying platform and in a label discharge direction of the label releasing unit for fixing the label to the product.

6. The certificate issuing apparatus according to claim 5, wherein the tape supply unit includes a mounting bracket, a label mounting portion, and a waste tape recovery portion provided at an upper end of the support frame on one side thereof, the label mounting portion and the waste tape recovery portion being provided on respective sides of the mounting bracket facing the transport platform, the mounting bracket being provided with a reader/writer therein;

the label mounting part comprises a fixed seat arranged on the mounting frame, a graduated tube inserted on the fixed seat, a carrier wheel which is rotatably connected on the graduated tube and used for mounting the label, and a retainer ring which is sleeved on the graduated tube and used for fixing the carrier wheel;

the waste tape recovery part includes through recovery part bearing rotate connect in the spool of mounting bracket, set up be in on the mounting bracket and with bearing frame, the cover of recovery part bearing adaptation are established just be used for the reelpipe of rolling waste tape and set up on the spool and be used for pressing from both sides the area clamp of tight waste tape, the slot has been seted up along the axial on the lateral wall of reelpipe, the area clamp insert establish in the slot, be provided with on the baffle and be used for leaning on the carrier wheel inside wall is in order to produce damped elastic pressing plate.

7. The certificate issuing apparatus according to claim 5, wherein the winding pulley assembly includes a mounting rod provided on the support frame, a sleeve pin fitted over the mounting rod, and a drum rotatably connected to the sleeve pin and adapted to wind the tag tape, the drum being rotatably connected to the sleeve pin by a winding wheel bearing, the sleeve pin being detachably connected to the mounting rod by a fastener;

the winding pulley component further comprises a step counting sensor, a coded disc is arranged at one end, facing the step counting sensor, of the roller, and the step counting sensor is arranged on the sleeve pin and used for sensing the coded disc to rotate so as to count steps.

8. The certificate issuing apparatus according to claim 5, wherein the label removing unit includes a label removing portion and a label removing and biasing portion, the label removing portion includes a label pressing plate, a label peeling blade provided at a front end of the label pressing plate, and a label peeling tail pressing plate provided at one side of the label peeling blade, short shafts are provided at both sides of the label pressing plate, the label pressing plate is rotatably connected to the main frame via the short shafts, and the label removing and biasing portion is provided at one side of the label pressing plate;

the label removing component also comprises a label removing sensing part arranged in the label removing direction of the label removing part, and the label removing sensing part comprises a sensor mounting frame arranged on the main frame body, a sensor mounting plate arranged on the sensor mounting frame and a label removing detection sensor arranged on the sensor mounting plate; be provided with the sensor mounting groove on the sensor mounting bracket, the sensor mounting groove is followed the length direction of sensor mounting bracket is seted up, the sensor mounting panel pass through the fastener can dismantle connect in the sensor mounting groove, go out mark detection sensor correspond set up in the station of mark area.

9. The certificate issuing apparatus according to claim 5, wherein the label fixing read-write unit includes a label pressing wheel portion and a read-write portion, the read-write portion being provided in a paper discharge direction of the label pressing wheel portion; the label pressing wheel part comprises a pressing wheel seat, pressing wheel rotating shafts arranged at two ends of the pressing wheel seat and a label fixing pressing wheel which is rotatably connected to the pressing wheel seat and used for pressing a label on a conveyed paper, and the pressing wheel seat is rotatably connected to the supporting frame through the pressing wheel rotating shafts at two ends;

the reading and writing part comprises an antenna mounting plate arranged on the conveying platform, a position adjusting plate detachably connected to the antenna mounting plate and an antenna plate arranged on the position adjusting plate and used for reading and writing information of the tag.

10. A certification machine comprising the certificate issuing apparatus according to any one of claims 1 to 9 and an apparatus housing for accommodating and assembling the certificate issuing apparatus, the apparatus housing comprising a main housing, a front panel provided at a front end of the main housing, and an operation platform provided at a lower end of the front panel;

be provided with touch display screen, setting on the front panel the surveillance camera head of touch display screen top and set up respectively the receipt printer and the ID card reader of touch display screen below, last signature panel, POS machine and the bar code rifle of being provided with of operation platform, the front panel with be provided with the card entrance between the operation platform.

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