CN115008914A - Block chain technology-based artificial intelligence seal management and control platform - Google Patents

Abstract

The invention discloses a block chain technology-based artificial intelligence seal management and control platform, and belongs to the technical field of seal management and control. Artificial intelligence is with chapter management and control platform based on block chain technique includes: a touch identification platform and an automation seal cabinet body; the touch identification platform is used for identifying recording seal information, releasing data information and regulating and controlling the position of a seal; the automatic seal cabinet body is arranged below the touch identification platform and is welded and fixed with the touch identification platform or is integrally formed with the touch identification platform; a cabinet door is arranged at the front side of the hollow arrangement inside the automatic seal cabinet body, and a rotary seal storage rack, a turnover three-jaw clamping piece, a sliding table mechanism and a stamping table are sequentially arranged inside the automatic seal cabinet body from top to bottom; a plurality of stamps with similar shapes are placed on the rotary stamp storage rack; the turnover type three-jaw clamping piece is arranged below one of the stamps and clamps one of the stamps to be arranged on the sliding table mechanism; the stamping platform is flush with the bottom end of the cabinet door and used for placing the printing files.

Description

Block chain technology-based artificial intelligence seal management and control platform

Technical Field

The invention relates to the technical field of seal management and control, in particular to an artificial intelligence seal management and control platform based on a block chain technology.

Background

In recent years, negligence exists in the aspects of unit seal management and unit supervision, and a series of events of stealing official seals, forging official seals, stealing official seals and illegal use of seals are frequent, so that a large amount of irretrievable economic loss, legal disputes, corruption and illegal and disciplinary cases are caused, and therefore on the basis of the existing electric power enterprise signature workbench, the deepened application of the traditional signature workbench is promoted by comprehensively applying the technologies of artificial intelligence, artificial intelligence and the like; meanwhile, aiming at pain points which are difficult to verify by the time-space correlation of the electronic signature, a block chain technology is introduced to realize the electronic signature verification of the base block chain. The problems that the usage supervision is difficult, the stamping process is difficult to trace, the informatization degree of stamp management is not high, the management means needs to be improved and the like are solved.

Therefore, the control equipment for automatic stamping after identification is established based on the block chain, and the artificial intelligence stamp control platform based on the block chain technology is provided.

Disclosure of Invention

The invention aims to provide an artificial intelligence seal management and control platform based on a block chain technology, which is used for solving the problems of disordered seal use and difficult tracing of a sealing process in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

artificial intelligence is with chapter management and control platform based on block chain technique includes: a touch identification platform and an automation seal cabinet body;

the touch identification platform is used for identifying recording seal information, releasing data information and regulating and controlling the position of a seal;

the automatic seal cabinet body is arranged below the touch identification platform and is welded and fixed with the touch identification platform or is integrally formed with the touch identification platform;

a cabinet door is arranged at the front side of the hollow arrangement inside the automatic seal cabinet body, and a rotary seal storage rack, a turnover three-jaw clamping piece, a sliding table mechanism and a stamping table are sequentially arranged inside the automatic seal cabinet body from top to bottom;

a plurality of stamps with similar shapes are placed on the rotary stamp storage rack;

the turnover type three-jaw clamping piece is arranged below one of the stamps, clamps one of the stamps and is arranged on the sliding table mechanism, or puts the stamp on the sliding table mechanism back on the turnover type three-jaw clamping piece;

the stamping table is flush with the bottom end of the cabinet door and used for placing the printing files.

Preferably, the rotary stamp storage rack comprises a rotary rack, an adsorption type sliding block and a driving motor;

the swivel mount supports through the support and is oval distribution and locate the automatic position that leans on the top with the chapter cabinet body, driving motor is connected to on the swivel mount and controls it along oval orbit removal through drive assembly, the absorption formula slider evenly is fixed in the swivel mount and is used for adsorbing fixed seal, absorption formula slider bottom is seted up flutedly, the seal is invertedly inserted inside the recess and rather than interference fit, the inside inkpad that has put of recess.

Preferably, the turnover type three-jaw clamping piece comprises a base, a first air rod and a three-jaw disc;

the middle part of the suspended base is provided with a rotating shaft in a penetrating manner, the rotating shaft and the base are connected and fixed, two ends of the rotating shaft are close to the inner wall of the automatic seal cabinet body and are erected through a support, and one end of the rotating shaft, which is rotatably connected with the support, is connected with a servo motor;

the first air rod is inversely arranged on the bottom surface of the base, and a push rod of the first air rod is fixedly connected with the three-jaw disc;

and a micro motor is carried in the three-jaw disc to control the movable clamping of the fixed jaw.

Preferably, a plurality of ear seats are uniformly fixed on the side wall of the three-jaw disc, a connecting rod is fixed at the bottom of each ear seat, a U-shaped clamping piece is fixed at the bottom of the connecting rod, and the outer side of the bottom end of each U-shaped clamping piece is provided with an oblique opening.

Preferably, the seal is mounted on the sliding table mechanism and comprises a sliding table, a second sliding block, a sliding rod and a fixed seat;

four the slip table is received the tail and is linked together and enclose city rectangular structure, the second slider is installed on the lead screw of slip table, two relatively the second slider passes through sliding rod connection fixed, two the slide bar dislocation set passes the fixing base and rather than sliding connection.

Preferably, the fixing base is hollow cylinder structure, the fixing base middle part is annular equidistant and has seted up a plurality of first spacing holes, first spacing hole runs through in the fixing base, first spacing downthehole portion is equipped with by outside male T type gag lever post, gag lever post inside is fixed with the toper stopper, first spacing downthehole portion is fixed with the first spring fixed with the toper stopper.

Preferably, the fixing seat is of a hollow cylinder structure, a plurality of second limiting holes are formed in the inner wall, close to the bottom end, of the fixing seat at equal intervals in an annular mode, the opening of the second limiting holes is closed, and locally protruded balls are movably arranged in the second limiting holes.

Preferably, the inner end of the ball is filled with an elastic cushion block.

Preferably, the inner end of the ball is filled with a second spring.

Preferably, the stamping table is made of magnetic metal, and a plurality of magnets are placed on the surface of the stamping table.

Compared with the prior art, the invention provides a block chain technology-based artificial intelligence seal management and control platform, which has the following beneficial effects:

the invention designs an interactive platform for identifying information of a signer based on a block chain technology and realizing automatic stamping after obtaining the identification information. The platform comprises a touch control identification platform used for interaction and a seal cabinet body used for realizing automation of flower feeding and sealing, and standard processing of each sealing is realized.

According to the automatic seal storage rack, the rotary seal storage rack capable of rotating and moving is built in the automatic seal cabinet body, seals are planned and stored, and when the automatic seal storage rack is used, the positions of the seals are adjusted, and the seals are automatically taken and placed.

The sliding table mechanism is designed to fix the seal, regulate and control the position of the seal, realize flexible regulation and control, and realize the seal at a precise position when files are not required to be regulated.

The invention designs a turnover type three-jaw clamping piece for taking and placing a seal, and the turnover type three-jaw clamping piece is arranged between a rotary seal storage frame and a sliding table mechanism to finish seal taking, placing, fixing and switching.

Drawings

FIG. 1 is a schematic overall front view of the present invention;

FIG. 2 is a schematic overall perspective view of the present invention;

FIG. 3 is a schematic view of the overall front view structure of the opened cabinet door of the present invention;

FIG. 4 is a side cross-sectional view of the automatic seal box body and the internal components thereof;

FIG. 5 is a schematic view of the overall structure of the internal components of the automated seal cabinet body according to the present invention;

FIG. 6 is a schematic bottom view of the rotary stamp storage rack of the present invention;

FIG. 7 is a schematic view of the structure of the turnover type three-jaw clamp of the present invention;

FIG. 8 is a schematic view of a seal picking and placing structure of the turnover type three-jaw gripper of the present invention from a rotary seal storage rack;

FIG. 9 is a schematic view of a structure of the turnover type three-jaw clamping member for picking and placing a stamp to the sliding table mechanism according to the present invention;

FIG. 10 is a schematic structural view of the stamp of the present invention mounted on a mounting base;

FIG. 11 is a schematic sectional view of the fixing base for mounting the second spring in the second position-limiting hole of the present invention;

FIG. 12 is a schematic cross-sectional view of the fixing base when the elastic cushion block is installed in the second limiting hole according to the present invention;

fig. 13 is a schematic view of a fixing base structure of the present invention.

Description of the figure numbers: 100. a touch identification platform; 200. an automated seal case body; 300. a cabinet door; 400. a rotary stamp storage rack; 401. a rotating frame; 402. an adsorption type slider; 403. a drive motor; 404. a groove; 500. a turnover type three-jaw clamping piece; 501. a base; 502. a first gas lever; 503. a three-jaw plate; 504. a rotating shaft; 505. a servo motor; 506. an ear mount; 507. a connecting rod; 508. a U-shaped clamping piece; 600. a sliding table mechanism; 601. a sliding table; 602. a second slider; 603. a slide bar; 604. a fixed seat; 605. a first limit hole; 606. a T-shaped limiting rod; 607. a conical limiting block; 608. a first spring; 609. a second limiting hole; 610. a ball bearing; 611. a second spring; 612. an elastic cushion block; 700. an impression station; 701. a magnet is provided.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example (b):

referring to fig. 1-5, a chapter management and control platform for artificial intelligence based on block chain technology includes: a touch identification platform 100 and an automation seal cabinet body 200;

the touch identification platform 100 is used for identifying recording seal information, releasing data information and regulating and controlling the position of a seal;

the automation seal cabinet body 200 is arranged below the touch identification platform 100 and is welded and fixed with the touch identification platform or is integrally formed with the touch identification platform;

the interior of the automation seal cabinet body 200 is hollow, the front side of the interior of the automation seal cabinet body is provided with a cabinet door 300, and the interior of the automation seal cabinet body 200 is sequentially provided with a rotary seal storage frame 400, a turnover type three-jaw clamping piece 500, a sliding table mechanism 600 and an embossing table 700 from top to bottom;

a plurality of stamps with similar shapes are placed on the rotary stamp storage rack 400;

the turnover type three-jaw clamping piece 500 is arranged below one of the stamps, one of the stamps is clamped and arranged on the sliding table mechanism 600, or the stamp on the sliding table mechanism 600 is placed back on the turnover type three-jaw clamping piece 500;

the stamping station 700 is flush with the bottom end of the cabinet door 300 and is used for placing the printed documents.

Some embodiments of the present application are described below with reference to the accompanying drawings:

referring to fig. 1-5, in the embodiment of the present application, the seal management and control platform is composed of a touch identification platform 100 and an automation seal cabinet 200, and carries an identification control system based on a block chain technology.

Wherein, the touch identification platform 100 and the automation seal cabinet body 200 are stacked up and down and are formed by welding and fixing or integrated molding; the touch identification platform 100 is used for man-machine interaction and comprises a touch screen, a card reader, an integrated probe and the like, wherein the card reader is used for reading information of a seal taking person, awakening the touch screen, the touch screen is connected with a micro host to perform imaging display, the seal taking person selects a seal, the touch screen presents an image of the stamping station 700, the seal taking person can zoom imaging content, and the seal is stamped by double-clicking the screen at any position of the touch screen, namely a stamping point.

Meanwhile, when the card reader is used for reading the information of the badge people, the integrated probe captures the information of the five sense organs of the badge people for taking a picture. And after the complete information of the five sense organs is confirmed and identified, storing the photographing information and awakening the touch screen.

Meanwhile, after the touch screen is awakened, the cabinet door 300 of the automatic seal cabinet body 200 is automatically opened, and the exposed stamping table 700 is used for placing files.

In the embodiment of the present application, the automated stamp cabinet 200 has a hollow structure, and a rotary stamp storage rack 400, a turnover three-jaw clamping member 500, a sliding table mechanism 600, a stamp pad 700, and the like are distributed from top to bottom inside the automated stamp cabinet; the rotary type seal storage rack 400, the turnover type three-jaw clamping piece 500, the sliding table mechanism 600 and the like adopt electric automation equipment to obtain operation instructions through being connected with a micro host machine, realize the automatic control of the storage, taking, placing, fixing and using of various seals,

referring to fig. 4 to 6, the rotary stamp storage rack 400 according to the present application is designed with an elliptical rotary rack 401 according to the internal space structure of the automatic stamp case body 200, wherein the rotary rack 401 is movably connected to and supported by a support, and the rotary rack 401 has certain elasticity and can rotate along the support. The drive assembly at the output of the drive motor 403 holds the turret 401 and controls the rotation. A plurality of suction type sliders 402 are fixed to the bottom end of the rotary frame 401, and a stamp is fixed to the suction type sliders 402.

Wherein, the absorption slider 402 is provided with a groove 404 towards, the seal is inversely inserted into the groove 404 and is in interference fit with the groove, and inkpad is placed in the groove 404. The stamp is taken and placed from the adsorption type sliding block 402 in a plugging mode and is fixed, and certain inkpad is automatically adhered after the stamp is fixed every time.

Referring to fig. 7-9, in the present application, the flip-type three-jaw clamp 500 is installed under one of the stamps, and is flipped up and down to pick and place the stamp.

Specifically, the turnover three-jaw clamping member 500 includes a base 501, a first air rod 502, and a three-jaw disc 503; the base 501 is fixed by a rotating shaft 504 in a penetrating way, and is supported and suspended below one of the stamps through the rotating shaft 504, two ends of the rotating shaft 504 extend to the inner wall of the automatic stamp cabinet body 200 to be close to and are erected through a support, a servo motor 505 is installed on one support, and the rotation of the base 501 is fixedly controlled through the connection between the servo motor 505 and the rotating shaft 504.

In the implementation process, the base 501 is turned in a unidirectional reciprocating manner within a turning range of 180 °.

In the above, the first air rod 502 is fixed to the upper end or the lower end surface of the base 501, and the push rod of the first air rod 502 is connected and fixed to the three-jaw plate 503. The three-jaw plate 503 is controlled by the first air rod 502 to move upwards or downwards, so that the three-jaw plate contacts and clamps the stamp. And a micro motor is carried in the three-jaw plate 503 to realize that the movement of the fixed jaw is controlled automatically to finish the picking and placing task.

It should be noted that, in the downward state of the three-jaw plate 503, a plurality of ear seats 506 are uniformly fixed on the outer wall, the ear seats 506 fix a U-shaped fastener 508 through a connecting rod 507, and the U-shaped fastener 508 is disposed obliquely towards the bottom end of the outer side. The U-shaped clamping piece 508 extends downwards and is lower than the bottom end of the three-jaw plate 503 through the fixation of the connecting rod 507; u-shaped clips 508 are distributed on both sides of the stamp to avoid interference when the three-jaw plate 503 picks up the stamp from the rotary stamp storage rack 400, and serve as a key for its fixing member when the three-jaw plate 503 picks up the stamp in the slide table mechanism 600.

Referring to fig. 9-13, in the embodiment of the present application, the sliding table mechanism 600 is used to fix a stamp and drive the stamp to move above the stamping table 700, search for a stamping point, and move down integrally to realize stamping.

Specifically, the sliding table mechanism 600 is composed of a sliding table 601, a second sliding block 602, a sliding rod 603, a fixed seat 604, and the like; adopt four slip tables 601 end-to-end to meet and enclose into rectangular structure, the tip of slip table 601 presses close to automation with the chapter cabinet body 200 inner wall and fixed with the connecting seat, this connecting seat can realize sliding from top to bottom with automation with chapter cabinet body 200 inner wall swing joint, is fixed with electric push rod above the connecting seat, and this electric push rod is to control connecting seat and slip table 601 and reciprocate downwards.

The screw rod of each sliding table 601 is in threaded connection with a second sliding block 602, the two symmetrical second sliding blocks 602 are connected through a sliding rod 603, the two sliding rods 603 are distributed in a cross shape in a vertically staggered manner, the fixed seat 604 is arranged in the middle of a rectangular frame surrounded by the four sliding tables 601, and the sliding rod 603 passes through the eccentric position of the fixed seat 604 and completes supporting. In the implementation, the two symmetrical sliding tables 601 work in reverse synchronously, the two symmetrical sliding tables 601 are controlled to move synchronously and in the same direction, and the position of the fixed seat 604 is changed when the sliding rod 603 moves due to the sliding contact of the sliding rod 603 and the fixed seat 604.

The fixing base 604 is adjusted in the above manner, so that the fixing base 604 is controlled to move randomly in a rectangular range.

According to the recording of the distance between the second slider 602 and the inner wall of the automatic stamp case 200 and the size of the fixing base 604, a stamping range can be defined on the stamping table 700, and a document can be placed in any stamping range of the stamping table 700.

It should be noted that the fixing base 604 adopts mechanical components to fix and lock the seal, and the U-shaped fastener 508 adjusts to unlock the seal to complete the taking and placing of the seal.

Specifically, the fixing seat 604 is a hollow columnar structure, the bottom end of the fixing seat 604 and the sliding table 601 are provided with a plurality of first limiting holes 605 along the environment in the middle of the fixing seat 604, the fixing seat 604 is penetrated through by the first limiting holes 605, a T-shaped limiting rod 606 is inserted from the outside, the T-shaped limiting rod 606 is partially left outside, and a tapered limiting block 607 is fixed at the inner end of the T-shaped limiting rod 606. As shown in the figure, the first position-limiting hole 605 has different hole diameters or hole types at the inner and outer layers of the fixing base 604, so that the first spring 608 fixed on the tapered position-limiting block 607 is sleeved outside the T-shaped position-limiting rod 606, and due to the change of the hole diameter of the first position-limiting hole 605, the other end of the first spring 608 is fixed on the first position-limiting hole 605. Under the influence of the first spring 608, in a natural state, the tapered stopper 607 protrudes wholly or partially to the middle of the fixing base 604, and the horizontal top surface of the bottom surface of the tapered stopper is inclined downward.

In addition, a second limiting hole 609 is formed in the fixing seat 604 below the first limiting hole 605 in parallel, the second limiting hole 609 is formed in the fixing seat 604 in a non-penetrating manner, an opening of the second limiting hole 609 is closed, a ball 610 is mounted in the second limiting hole 609, and the ball 610 can be partially protruded outwards.

In some embodiments, the inner space of the second hole 609 is filled with a plurality of elastic pads 612 with smaller elasticity, so that the ball 610 is pushed out sufficiently, and the rolling of the ball 610 is not affected by the contact between the elastic pads 612 and the ball 610.

In some embodiments, a second spring 611 is installed inside the second stopper hole 609, and the second spring 611 is fixed with the ball 610 to have a better restoring force.

In the implementation process, the aperture of the fixing seat 604 is the same as or slightly larger than the size of the stamp bottom, the stamp in clearance fit with the fixing seat 604 can contact with the ball 610, and the fixing of the fixing seat 604 and the stamp is realized through the clamping of the ball 610. When the stamp is fixed, the stamp holder extends below the fixing holder 604, and the document is preferably contacted when the stamp is stamped.

In addition, when putting the seal on the fixing base 604, the seal can contact with the tapered limiting block 607, and because the top surface of the tapered limiting block 607 is inclined, when fixing, the tapered limiting block 607 can be firstly taken in the first limiting hole 605, and then the tapered limiting block 607 is popped out to be clamped on the surface of the seal seat. Therefore, when stamping, the stamp can be prevented from moving, but the stamp can not be taken out. Therefore, the U-shaped clamping piece 508 realizes unlocking of the three-jaw plate 503, specifically, when the three-jaw plate 503 is controlled to move downwards, the U-shaped clamping piece 508 of the three-jaw plate 503 is preferentially contacted with the T-shaped limiting rod 606 and crossed with the T-shaped limiting rod, the thickness of the inclined plane of the U-shaped clamping piece 508 is larger than or equal to the width of the outwards protruding conical limiting block 607, the T-shaped limiting rod 606 can be pulled outwards after the U-shaped clamping piece 508 is inserted into the T-shaped limiting rod 606, the conical limiting block 607 is controlled, therefore, the conical limiting block 607 is in a contracted state in the taking and placing process, and the conical limiting block 607 is limited and locked newly after the three-jaw plate 503 is withdrawn.

Referring to the drawings, in the present application, a cabinet door 300 is disposed at the front side of the automatic seal cabinet body 200, wherein the bottom end of the cabinet door 300 is flush with the platen 700 in an inward opening manner, after the cabinet door 300 is opened, the exposed platen 700 is used for placing a document, the platen 700 is made of magnetic metal, a plurality of magnets 701 are placed on the surface of the platen 700, and the folded document is flattened by using the magnets 701.

In the above embodiment, this application is regular and is got and put the use based on the circular and similar seal of size in seal seat. In the implementation, the stamp cabinet 200 and the internal components can be automatically designed in a layered manner, and different shapes of stamps can be adapted by changing the shapes of the adsorption type sliding block 402 and the fixed seat 604.

Based on the embodiments on the market, the application further comprises at least one processor and a memory in communication with the at least one processor;

the processor and the memory are arranged inside the micro host;

the memory has instructions executable by the at least one processor, the instructions being executable by the at least one processor to enable the at least one processor to perform any of the automated devices embodied by the rotary stamp storage rack 400, the convertible three-jaw gripper 500, the slide table mechanism 600, and the like described above;

intelligent devices include, but are not limited to, a drive motor 403 in the rotary stamp storage rack 400;

the smart devices include, but are not limited to, a servo motor 505, a micro motor, a first air rod 502 in the flipper three-jaw clamp 500;

the intelligent device includes but is not limited to a working motor of the sliding table 601 in the limit sliding table mechanism 600;

the intelligent device further includes an electrical device that controls the cabinet door 300 to be automatically opened and closed.

Based on the listed embodiments, the application discloses at least one human-computer interaction control system,

the control system comprises an identity recognition system, a portrait acquisition system and a file capturing and recognizing unit;

the identity recognition system reads the information of the seal certificate for use by adopting a card reader on the touch recognition platform 100 and activates the portrait acquisition system;

the portrait acquisition system captures information of five sense organs of a badge using an integrated probe, takes a picture, stores the picture taking information after confirming that the information identifying the five sense organs is completely cleaned, and awakens a touch screen;

the document capturing and identifying units are distributed below the four sliding tables 601, and capture the surface information of the stamp pad 700 completely downwards, and even present a complete document image on the touch screen through fusion.

The acquired shooting information and the card reader reading seal certificate information are stamped with a timestamp based on a block chain technology when being stored, so that tampering is avoided, and tracing is facilitated.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (10)

1. Artificial intelligence is with chapter management and control platform based on block chain technique, its characterized in that: comprises that

The touch control identification platform (100) is used for identifying recording seal information, putting data information and regulating and controlling the position of a seal;

an automatic seal cabinet body (200) which is arranged below the touch control identification platform (100) and is welded and fixed with the touch control identification platform or is integrally formed

The automatic seal cabinet body (200) is hollow, a cabinet door (300) is arranged at the front side of the hollow part, and a rotary seal storage rack (400), a turnover type three-jaw clamping piece (500), a sliding table mechanism (600) and a stamping table (700) are sequentially mounted in the automatic seal cabinet body (200) from top to bottom;

a plurality of stamps with similar shapes are placed on the rotary stamp storage rack (400);

the turnover type three-jaw clamping piece (500) is arranged below one of the stamps, and is used for clamping one of the stamps arranged on the sliding table mechanism (600), or the stamp on the sliding table mechanism (600) is placed back on the turnover type three-jaw clamping piece (500);

the stamping station (700) is flush with the bottom end of the cabinet door (300) and is used for placing the printed documents.

2. The chapter management and control platform for artificial intelligence based on blockchain technology according to claim 1, wherein: the rotary stamp storage rack (400) comprises a rotary rack (401), an adsorption type sliding block (402) and a driving motor (403);

revolving rack (401) are oval distribution and locate the automation and lean on the position at top with the chapter cabinet body (200) through the support, driving motor (403) are connected to on revolving rack (401) through drive assembly and control it and remove along oval orbit, absorption formula slider (402) are evenly fixed in revolving rack (401) and are used for adsorbing fixed seal, absorption formula slider (402) bottom is seted up flutedly (404), the seal is invertd and is inserted recess (404) inside and rather than interference fit, the inkpad has been put to recess (404) inside.

3. The chapter management and control platform for artificial intelligence based on blockchain technology according to claim 1, wherein: the turnover type three-jaw clamping piece (500) comprises a base (501), a first air rod (502) and a three-jaw disc (503);

the automatic stamping cabinet is characterized in that a rotating shaft (504) penetrates through the middle of the suspended base (501), the rotating shaft (504) is connected with the base (501), two ends of the rotating shaft (504) are fixed to be close to the inner wall of the automatic stamping cabinet body (200) and are erected through a support, and one end of the rotating shaft (504) is rotatably connected with the support and is connected with a servo motor (505);

the first air rod (502) is arranged on the bottom surface of the base (501) in an inverted mode, and a push rod of the first air rod (502) is fixedly connected with the three-jaw disc (503);

the three-jaw disc (503) is internally provided with a micro motor for controlling the movable clamping of the fixed jaw.

4. The chapter management and control platform for artificial intelligence based on blockchain technology according to claim 3, wherein: three-jaw dish (503) lateral wall is evenly fixed with a plurality of ear seat (506), ear seat (506) bottom is fixed with connecting rod (507), connecting rod (507) bottom is fixed with U type fastener (508), the bevel connection setting is done in U type fastener (508) bottom outside.

5. The chapter management and control platform for artificial intelligence based on blockchain technology according to claim 1, wherein: the seal is arranged on the sliding table mechanism (600) and comprises a sliding table (601), a second sliding block (602), a sliding rod (603) and a fixed seat (604);

four slip table (601) end to end surrounds city rectangular structure, second slider (602) are installed on the lead screw of slip table (601), two relatively second slider (602) are connected fixedly through slide bar (603), two slide bar (603) dislocation set passes fixing base (604) and rather than sliding connection.

6. The chapter management and control platform for artificial intelligence based on blockchain technology according to claim 5, wherein: the fixing seat (604) is of a hollow cylinder structure, a plurality of first limiting holes (605) are formed in the middle of the fixing seat (604) at equal intervals in an annular mode, the first limiting holes (605) penetrate through the fixing seat (604), T-shaped limiting rods (606) inserted from the outside are arranged in the first limiting holes (605), tapered limiting blocks (607) are fixed inside the T-shaped limiting rods (606), and first springs (608) fixed with the tapered limiting blocks (607) are fixed inside the first limiting holes (605).

7. The chapter management and control platform for artificial intelligence based on blockchain technology according to claim 5, wherein: fixing base (604) are hollow cylinder structure, fixing base (604) lean on and are the spacing hole of annular equidistant a plurality of seconds (609) of having seted up on the inner wall of bottom, the setting up of binding off of the department of the spacing hole of second (609), but the inside activity of the spacing hole of second (609) is equipped with local convex ball (610).

8. The block chain technology-based artificial intelligence seal management and control platform according to claim 7, wherein: the inner end of the ball (610) is filled with an elastic cushion block (612).

9. The block chain technology-based artificial intelligence seal management and control platform according to claim 7, wherein: and a second spring (611) is fixed at the inner end of the ball (610).

10. The chapter management and control platform for artificial intelligence based on blockchain technology according to claim 1, wherein: the stamping table (700) is made of magnetic metal, and a plurality of magnets (701) are arranged on the surface of the stamping table.

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