CN110481165A - A kind of magnetic imaging number is without version thermoprinting machine - Google Patents

Abstract

The present invention provides a kind of magnetic imaging numbers without version thermoprinting machine, including for holding boiling hot product conveyor structure to hold that boiling hot product conveyed, web feed mechanism for being conveyed to thermoprint material strip, for by the thermoprint mechanism and latent magnetic image formation mechanism in thermoprint material strip thermoprint to the surface for holding boiling hot product, and thermoprint mechanism includes print needle group, print needle group has multiple print needles, because latent magnetic image formation mechanism can form corresponding latent magnetic image according to predetermined thermoprinted-image, to attract the print needle of print needle group corresponding position, and predetermined thermoprinted-image will be formed in thermoprint material strip thermoprint to the surface for holding boiling hot product using the remaining print needle of print needle group as thermoprint syringe needle, so, magnetic imaging number of the invention is without version thermoprinting machine without pushing print needle during thermoprint, so as to shorten the consuming of thermoprint process Time improves the efficiency of thermoprint work.

Description

A kind of magnetic imaging number is without version thermoprinting machine

Technical field

The invention belongs to thermoprint fields, and in particular to a kind of magnetic imaging number is without version thermoprinting machine.

Background technique

With the quickening of China's printing digitalization process, digital thermoprint because of its changeability, on-demand, personalization, at For novel process process indispensable in Printing Industry.

Currently, number in the market mostly uses greatly needle type print head, thermoprint process are as follows: needle type print head is whole without version thermoprinting machine Body transient heating generates high temperature, then needle type print head is pushed so as to by thermoprint material strip thermoprint to the surface for holding boiling hot product, directly Terminate to thermoprint process.During thermoprint, because the needle type print head of high temperature will lead to the reduction of thermoprint quality, also need Needle type print head is integrally cooled down with printer cover to guarantee thermoprint quality during thermoprint.

It can be seen that the needle type print head of heating has since the heating method of needle type print head is whole heating Biggish heat, therefore when being cooled down with printer cover to it, need to expend longer cooling time.

To sum up, the thermoprint process in traditional technology is longer, and thermoprint works inefficient.

Summary of the invention

It is being carried out the present invention be directed to the above problem, and it is an object of the present invention to provide it is a kind of thermoprint process improve thermoprint work A kind of magnetic imaging number of efficiency is without version thermoprinting machine.

To achieve the above object, present invention employs following technical solutions:

The present invention provides a kind of magnetic imaging numbers without version thermoprinting machine, has the feature that, comprising: holds boiling hot product conveying Mechanism, for conveying to holding boiling hot product；The top for holding boiling hot product conveyor structure is arranged in web feed mechanism, for pair Thermoprint material strip is conveyed；The top of web feed mechanism is arranged in thermoprint mechanism, for by the thermoprint of thermoprint material strip to holding boiling hot production It include print needle group on the surface of product, print needle group has multiple print needles；And latent magnetic image formation mechanism, setting are being scalded The top of printing mechanism, latent magnetic image formation mechanism is used to form corresponding latent magnetic negative image picture according to predetermined thermoprinted-image, thus right The print needle of corresponding position in print needle group is attracted, using the remaining print needle of print needle group as thermoprint syringe needle, thermoprint Syringe needle will form predetermined thermoprinted-image in thermoprint material strip thermoprint to the surface for holding boiling hot product.

Magnetic imaging number provided by the invention without in version thermoprinting machine, can also have the following features: wherein, dive magnetic chart As formation mechanism includes positioned at the magnetography plate in predetermined position, for driving magnetography plate to carry out mobile imaging plate driving Imaging head near motor and setting magnetography plate, imaging head are used to generate corresponding magnetic according to predetermined thermoprinted-image Reduction of fractions to a common denominator cloth, when imaging plate driving motor driving magnetography plate is mobile and contacts with imaging head, imaging head and magnetography plate Closed magnetic circuit is formed, to make to form latent magnetic negative image picture corresponding with predetermined thermoprinted-image on magnetography plate.

It in magnetic imaging number provided by the invention without in version thermoprinting machine, can also have the feature that, further includes: control Processing unit is communicated to connect with latent magnetic image formation mechanism, and there is latent magnetic image generating unit, the first driving signal of imaging plate to generate Portion, the second drive signal generating unit of imaging plate, processing side communication unit and processing side control unit, handle side control unit according to operation The enabled instruction of personnel controls latent magnetic image generating unit and generates latent magnetic image generation signal, and processing side communication unit is raw by latent magnetic image It is sent to imaging head at signal, so that magnetic flux distribution corresponding with predetermined thermoprinted-image is generated on imaging head, when magnetic flux point When cloth generation finishes, processing side control unit control the first drive signal generating unit of imaging plate generates the first driving signal of imaging plate, It handles side communication unit and the first driving signal of imaging plate is sent to imaging plate driving motor, to drive imaging plate driving motor band Dynamic magnetography plate is moved to from predetermined position to be contacted with imaging head, and then latent magnetic negative image is formed on magnetography plate Picture, when the formation of latent magnetic negative image picture finishes, processing side control unit control the second drive signal generating unit of imaging plate generates imaging plate Second driving signal handles side communication unit and the second driving signal of imaging plate is sent to imaging plate driving motor, thus driving at As plate driving motor drives magnetography plate to be back to predetermined position.

In magnetic imaging number provided by the invention without in version thermoprinting machine, can also have the following features: wherein, thermoprinting machine Structure also include around being arranged in electromagnetic coil and high-frequency current generator around thermoprint syringe needle, high-frequency current generator with Electromagnetic coil electrical connection, for generating alternating current, so that electromagnetic coil can generate alternating magnetic field, and then to thermoprint needle Head is heated, and control processing unit is also communicated to connect with thermoprint mechanism, also has heating signal generating unit, when with latent magnetic yin When the magnetography plate of image is located at predetermined position, processing side control unit control heating signal generating unit generates heating signal, place It manages side communication unit and heating signal is sent to high-frequency current generator, so that alternating magnetic field is generated on electromagnetic coil, to thermoprint Syringe needle is heated, and then predetermined thermoprinted-image will be formed in thermoprint material strip thermoprint to the surface for holding boiling hot product.

Magnetic imaging number provided by the invention without in version thermoprinting machine, can also have the following features: wherein, dive magnetic chart As formation mechanism also includes the demagnetization head in the demagnetization head predetermined position near magnetography plate to be arranged in and for driving demagnetization Head it is mobile move back head drive motor, when moving back head drive motor driving demagnetization head from demagnetization head predetermined position to magnetography plate Carry out mobile and when being contacted with magnetography plate, demagnetization head removes latent magnetic negative image picture, and control processing unit also has demagnetization head the One drive signal generating unit and demagnetization the second drive signal generating unit of head handle side when the formation of predetermined thermoprinted-image finishes Control unit control demagnetization the first drive signal generating unit of head generates demagnetization the first driving signal of head, and processing side communication unit will demagnetize head First driving signal, which is sent into, moves back head drive motor, thus drive demagnetization head from demagnetization head predetermined position be moved to The contact of magnetography plate, and then latent magnetic negative image picture is eliminated, when the elimination of latent magnetic negative image picture finishes, handle the control of side control unit It makes demagnetization the second drive signal generating unit of head and generates demagnetization the second driving signal of head, processing side communication unit drives demagnetization head second Signal, which is sent to, moves back head drive motor, so that the head that demagnetizes is back to demagnetization head predetermined position.

In magnetic imaging number provided by the invention without in version thermoprinting machine, can also have the following features: wherein, material strip is defeated Sending mechanism includes the second conveying assembly and the second driving motor, and the second conveying assembly includes the Scroll set gradually, at least two A guide reel and unreeling shaft, the both ends of thermoprint material strip are socketed on Scroll and unreeling shaft respectively and successively around two guidance Roller, will be between at least two guide reels and the thermoprint material strip that is arranged in below thermoprint mechanism is as thermoprint compression zone, thermoprint Compression zone is located at the top for holding boiling hot product, and wind-up roll is mounted on the output end of the second driving motor, and the second driving motor is used for Driving wind-up roll is rotated, and control processing unit is also connect with web feed institutional communication, also has the second driving portion, processing Side control unit controls the second driving portion according to the enabled instruction of operator and generates the second driving signal, and processing side communication unit is by the Two driving signal is sent to the second driving motor, so that the second driving motor of driving is rotated, rotates wind-up roll, into And thermoprint material strip is driven, allow thermoprint compression zone to be moved.

In magnetic imaging number provided by the invention without in version thermoprinting machine, it can also have the following features: wherein, hold boiling hot production Product conveying mechanism includes the first conveying assembly and the first driving motor, and the first conveying assembly has drive shaft, tensioning shaft, tensioning Roller, conveyor belt and thermoprint product placement plate, drive shaft, tensioning shaft and idler roller are parallel to each other, drive shaft and idler roller It is respectively positioned on first level face, tensioning shaft is located at the lower section in first level face, and conveyor belt is socketed in drive shaft, tensioning shaft simultaneously And on idler roller, using the conveyor belt between drive shaft and idler roller as boiling hot product supporting part is held, holds boiling hot product and hold Load portion is for holding boiling hot product, and thermoprint product placement plate is mounted on by spring horizontal holds on boiling hot product supporting part, for putting Set and hold boiling hot product, thus when hold boiling hot product it is in uneven thickness when, thermoprint product placement plate is made by the resilient force of spring Always it is come into full contact with thermoprint material strip, drive shaft is mounted on the output end of the first driving motor, and the first driving motor is for driving Dynamic drive shaft is rotated, control processing unit also with hold boiling hot product conveyor structure and communicate to connect, also there is the first driving portion, place It manages side control unit and the first driving portion the first driving signal of generation is controlled according to the enabled instruction of operator, processing side communication unit will First driving signal is sent to the first driving motor, so that the first driving motor of driving is rotated, rotates drive shaft, And then drive and hold boiling hot product supporting part, it allows and holds boiling hot product and moved.

In magnetic imaging number provided by the invention without in version thermoprinting machine, can also have the following features: wherein, thermoprinting machine Structure also includes syringe needle outer box, and print needle group is equipped with inside syringe needle outer box, and syringe needle outer box have outer box body and are mounted on outer box The rubber flap of ontology lower end, glue scraper plate are contacted with thermoprint material strip.

In magnetic imaging number provided by the invention without in version thermoprinting machine, can also have the following features: wherein, it is multiple to beat The arrangement mode of needle is printed for any one in the arrangement of more arrays, circular array arrangement and the arrangement of row array.

In magnetic imaging number provided by the invention without in version thermoprinting machine, can also have the following features: wherein, print needle With needle section and Aculeata, Aculeata is located at the top of needle section, and Aculeata is iron Aculeata, nickel Aculeata and cobalt Any one in Aculeata processed, needle section are arranged in electromagnetic coil, and needle section is copper alloy needle section or silver alloy syringe needle Portion.

The action and effect of invention

Related magnetic imaging number is without version thermoprinting machine according to the present invention, including for holding to hold that boiling hot product conveyed Scald product conveyor structure, the web feed mechanism for being conveyed to thermoprint material strip, for the thermoprint of thermoprint material strip is boiling hot to holding Thermoprint mechanism and latent magnetic image formation mechanism on the surface of product, and thermoprint mechanism includes print needle group, print needle group tool There are multiple print needles, because latent magnetic image formation mechanism can form corresponding latent magnetic negative image picture according to predetermined thermoprinted-image, from And the print needle of print needle group corresponding position is attracted, and will be scalded using the remaining print needle of print needle group as thermoprint syringe needle Print material with forming predetermined thermoprinted-image in thermoprint to the surface for holding boiling hot product, so, magnetic imaging number of the invention is without version thermoprint Machine, without pushing print needle, so as to shorten the consuming time of thermoprint process, improves thermoprint work during thermoprint Efficiency.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the magnetic imaging number without version thermoprinting machine in the embodiment of the present invention；

Fig. 2 is the diagrammatic cross-section of the thermoprint material strip in the embodiment of the present invention；

Fig. 3 is the thermoprint mechanism diagrammatic cross-section one in the embodiment of the present invention；

Fig. 4 is the thermoprint mechanism diagrammatic cross-section two in the embodiment of the present invention；

Fig. 5 is the schematic diagram of the print needle in the embodiment of the present invention；

Fig. 6 is the schematic diagram of the print needle fixed block in the embodiment of the present invention；

Fig. 7 is the diagrammatic cross-section of the magnetography plate in the embodiment of the present invention；

Fig. 8 is the schematic diagram of the internal structure of the imaging head in the embodiment of the present invention；

Fig. 9 is the structural block diagram of the control device in the embodiment of the present invention；And

Figure 10 is step schematic diagram of the magnetic imaging number without the version thermoprinting machine course of work in the embodiment of the present invention.

Specific embodiment

It is real below in order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention Example combination attached drawing is applied to be specifically addressed magnetic imaging number of the invention without version thermoprinting machine.

Fig. 1 is structural schematic diagram of the magnetic imaging number without version thermoprinting machine in the embodiment of the present invention.

As shown in Figure 1, magnetic imaging number in the present embodiment is without version thermoprinting machine 100, for by thermoprint material strip B thermoprint to holding It scalds and forms predetermined thermoprinted-image on the surface of product A, including pedestal (not marking in attached drawing), hold boiling hot product conveyor structure 10, material Band conveying mechanism 20, thermoprint mechanism 30, latent magnetic image formation mechanism 40 and control processing unit 50.

Fig. 2 is the diagrammatic cross-section of the thermoprint material strip in the embodiment of the present invention.

As shown in Fig. 2, thermoprint material strip B be multilayered structure, comprising be sequentially distributed along predetermined direction base membrane layer B1, separating layer B2, dye layer B3, aluminium coated B4 and adhesive layer B5.In the present embodiment, predetermined direction is vertically downward direction.

Pedestal is for carrying and installing the magnetic imaging number in the present embodiment without remaining all parts in version thermoprinting machine 100 Thermoprinting machine frame structure.

It holds the installation of boiling hot product conveyor structure 10 on the base, for conveying to holding boiling hot product A, holds boiling hot product conveyor Structure 10 includes the first conveying assembly 11 and the first driving motor 12.

First conveying assembly has drive shaft 111, tensioning shaft 112, idler roller 113, conveyor belt 114 and holds boiling hot product Placement plate 115.

Drive shaft 111, tensioning shaft 112 and idler roller 113 are parallel to each other.

The axis of drive shaft 111 and the axis of idler roller 113 are respectively positioned on the C1 of first level face, and tensioning shaft 113 is located at the The lower section of one horizontal plane C1.

Conveyor belt 114 is socketed in simultaneously on drive shaft 111, tensioning shaft 112 and idler roller 113, and idler roller 113 is used for Adjust the tension of conveyor belt 114.

By the conveyor belt 114 between drive shaft 111 and idler roller 113 as boiling hot product supporting part 10a is held, hold boiling hot Product supporting part 10a is for holding boiling hot product A.

It holds boiling hot product placement plate 115 and is mounted on by spring horizontal and held on boiling hot product supporting part 10a, hold boiling hot production for placing Product A, thus when hold boiling hot product A it is in uneven thickness when, by the resilient force of spring make to hold boiling hot product A always with thermoprint material Band B comes into full contact with.

The output end of first driving motor 12 is for installing drive shaft 111, and the first driving motor 12 is for driving drive shaft 111 are rotated, and are driven to match with tensioning shaft 112 and idler roller 113 to conveyor belt 114, and then are driven and held Product supporting part 10a is scalded, makes to hold boiling hot product placement plate 115 and holds boiling hot product A and moved.In the present embodiment, boiling hot production is held The movement from drive shaft 111 to idler roller 113 of boiling hot product placement plate 115 is held in product supporting part 10a drive, i.e., along direction, X is moved.

The top for holding boiling hot product conveyor structure 10 is installed on the base and be arranged in web feed mechanism 20, for thermoprint Material strip B is conveyed, and web feed mechanism 20 includes the second conveying assembly 21 and the second driving motor (not marking in attached drawing).

Second conveying assembly 21 is located at the top of the first conveying assembly 11, includes the Scroll set gradually along direction X 211, at least two guide reels and unreeling shaft 213.In the present embodiment, the quantity of guide reel is 2, the respectively first guidance Roller 212A and the second guide reel 212B.

In the present embodiment, Scroll 211, the first guide reel 212A, the second guide reel 212B and unreeling shaft 213 are mutual In parallel.

In the present embodiment, the axis of the axis of the first guide reel 212A and the second guide reel 212B are respectively positioned on the second level On the C2 of face, Scroll 211 and unreeling shaft 213 are respectively positioned on the top of the second horizontal plane C2.

The both ends of thermoprint material strip B are socketed on Scroll 211 and unreeling shaft 213 respectively and successively bypass each guide reel, In the present embodiment, the both ends of thermoprint material strip B are socketed on Scroll 211 and unreeling shaft 213 respectively and successively draw around first Deflector roll 212A and the second guide reel 212B.

It will be between at least two guide reels and the thermoprint material strip B that is arranged in below thermoprint mechanism 30 is pressurized as thermoprint Portion 20a, the thermoprint compression zone 20a, which are located at the top for holding boiling hot product A, will be located at the first guide reel in the present embodiment Thermoprint material strip B between 212A and the second guide reel 212B is as thermoprint compression zone 20a.

Not used thermoprint material strip B is arranged on unreeling shaft 213, Scroll 211 is used to use by rotation recycling and complete Thermoprint material strip B.

The output end of second driving motor is for being mounted on wind-up roll 211, and the second driving motor is for driving wind-up roll 211 It is rotated counterclockwise, so that the opposite direction of the thermoprint material strip B of thermoprint compression zone 20a in X direction be driven to be moved.In this reality It applies in example, the thermoprint material strip B of thermoprint compression zone 20a is mobile from the second guide reel 212B to the first guide reel 212A.

Fig. 3 is the thermoprint mechanism diagrammatic cross-section one in the embodiment of the present invention；Fig. 4 is scalding in the embodiment of the present invention Printing mechanism diagrammatic cross-section two.

As shown in Fig. 1 and Fig. 3-4, thermoprint mechanism 30 is installed on the base, and the top of web feed mechanism 20 is arranged in simultaneously Positioned at the surface of thermoprint compression zone 20a, for including syringe needle outer box by thermoprint material strip B thermoprint to the surface for holding boiling hot product A 31, print needle group 32, print needle fixed block 33, high-frequency current generator 34 and electromagnetic coil 35.

Syringe needle outer box 31 have outer box body 311 and rubber flap 312.

Outer box body 311 is cylinder and length direction is arranged along the vertical direction, and the upper and lower end faces of outer box body 311 are opened Mouthful, the material of outer box body 3111 is ceramics.In the present embodiment, outer box body 3111 is in cuboid cylinder.

Rubber flap 312 is mounted on the lower edge of outer box body 311 and contacts with thermoprint material strip B.In the present embodiment, Rubber flap 312 is in the lower edge that the circumferential direction of outer box body 311 is pasted onto outer box body 311.

Fig. 5 is the schematic diagram of the print needle in the embodiment of the present invention.

As in Figure 3-5, print needle group 32 passes through the movable inside for being mounted on syringe needle outer box 31 of print needle fixed block 33, Print needle group 32 is not in contact with each other with syringe needle outer box 31, and print needle group 32 includes multiple print needles 321.

The arrangement mode of multiple print needles 321 is appointing in the arrangement of more arrays, circular array arrangement and the arrangement of row array It anticipates one kind, is not in contact with each other between multiple print needles 321, the lower end of multiple print needles 321 is respectively positioned in same level and does not reach To the lower end surface of syringe needle outer box 31, the spacing of print needle 321 is 0.5mm-1.5mm, the lower end of print needle 321 and syringe needle outer box 31 Lower end surface distance be 0.5mm-2mm.In the present embodiment, multiple print needles 321 are arranged in arrays, between print needle 321 Away from preferably 0.5mm, the lower end of print needle 321 is preferably 0.5mm at a distance from the lower end surface of syringe needle outer box 31.

Print needle 321 has needle section 3211 and Aculeata 3212, and Aculeata 3212 is located at the top of needle section 3211, needle Tail portion 3212 is any one in iron Aculeata, nickel Aculeata and cobalt Aculeata, and needle section 3211 is copper alloy Needle section or silver alloy needle section.In the present embodiment, multiple print needles 3131 are arranged in arrays, and the spacing of print needle 3131 is excellent It is selected as 0.5mm, needle section 3211 is preferably silver alloy needle section, and Aculeata 3212 is preferably iron Aculeata.

Fig. 6 is the schematic diagram of the print needle fixed block in the embodiment of the present invention.

As shown in Figure 4 and Figure 6, print needle fixed block 33 is horizontally arranged at the inside of syringe needle outer box 31, has and print needle 321 corresponding multiple fixation holes 331, the corresponding insertion of print needle 321 is mounted in fixation hole 331 and print needle 321 is only capable of It is moved up on vertical direction, in the present embodiment, print needle fixed block 33 is in tabular, and quantity is two pieces, along vertical Direction is mounted on the inside of syringe needle outer box 31, and the corresponding insertion of print needle 321 is mounted in fixation hole 331, and needle section 3211 is cone Shape, the aperture of fixation hole 331 are less than the diameter of Aculeata 3212, and fixation hole 331 plays one in vertical direction to print needle 321 Supporting role is equal to the diameter of syringe needle tail portion 3212 positioned at the aperture of the fixation hole 331 of upper print needle fixed block 33.

High-frequency current generator 34 is for generating alternating current.In the present embodiment, the setting of high-frequency current generator 34 exists The outside of syringe needle outer box 31.

Electromagnetic coil 35 is electrically connected with high-frequency current generator 34 and is located inside syringe needle outer box 31, and electromagnetic coil 35 is close The lower end of syringe needle outer box 31, around being arranged in around needle section 3211.Electromagnetic coil 35 can be produced when leading into alternating current Raw alternating magnetic field, and then heated to the needle section 3211 that electromagnetic coil 35 is surrounded is located at, by thermoprint material strip B thermoprint to holding On the surface for scalding product A.

The top of thermoprint mechanism 30 is arranged in latent magnetic image formation mechanism 40, drives comprising magnetography plate 41, imaging plate Motor 42, imaging head 43, demagnetization and are moved back head drive motor (not marking in attached drawing) at head 44.

Fig. 7 is the diagrammatic cross-section of the magnetography plate in the embodiment of the present invention；

As shown in fig. 7, as shown in Fig. 2, the setting of magnetography plate 41 is in predetermined position and is double-layer structure panel, comprising vertical Wearing layer 411, soft or hard ferromagnet coating 412, metal layer 413 and the nonmagnetic body plate base being sequentially distributed downwards 414.In the present embodiment, predetermined position is the surface of print needle group 32, and ferromagnet coating 412 is preferably the ferromagnet of hard Coating 412.

Imaging plate driving motor 42 is for driving magnetography plate 41 to be moved.In the present embodiment, imaging plate drives The output end of motor 42 is equipped with electric pushrod, and imaging plate driving motor 42 drives magnetography plate 41 by driving electric pushrod It is moved.

Fig. 8 is the schematic diagram of the internal structure of the imaging head in the embodiment of the present invention.

Imaging head 43 is arranged near magnetography plate 41, for generating corresponding magnetic flux according to predetermined thermoprinted-image Distribution, inside have imaging head core 431 and coil 432.

In the present embodiment, imaging head core 431 is the inverted " U " shape silicon steel core of opening straight down.

Coil 432 is arranged around imaging head core 431, for making imaging head core 431 raw in the case where being passed through alternating current At magnetic flux distribution.

Demagnetization head 44 the demagnetization head predetermined position near magnetography plate 41 is set, for magnetography plate 41 into Row demagnetization.

Move back head drive motor for drive demagnetization head move between head predetermined position and magnetography plate 41 demagnetizing.

Fig. 9 is the structural block diagram of the control device in the embodiment of the present invention.

As shown in Fig. 1 and Fig. 9, control processing unit 40 respectively with hold boiling hot product conveyor structure 10, web feed mechanism 20, Thermoprint mechanism 30 and the communication connection of latent magnetic image formation mechanism 40 have picture storage unit 501, input display unit 502, latent magnetic Image production part 503, heating signal generating unit 504, processing side communication unit 505, the first driving portion 506, the second driving portion 507, The first drive signal generating unit of imaging plate 508, the second drive signal generating unit of imaging plate 509, demagnetization the first driving signal of head are raw At portion 510, demagnetization the second drive signal generating unit of head 511 and processing side control unit 512.In the present embodiment, control is handled Device 50 is installed on the base.

Processing side communication unit 505 be used for control processing unit 50 in rest part, hold boiling hot product conveyor structure 10, material strip Communication exchange is carried out between conveying mechanism 20, thermoprint mechanism 30 and latent magnetic image formation mechanism 40.In the present embodiment, it handles Side communication unit 505 is and holds boiling hot product conveyor structure 10, web feed mechanism 20, thermoprint mechanism 30 and latent magnetic image formation machine The communication module of the wireless communication connection of structure 40.

Processing side control unit 512 is the control chip equipped with predetermined control program, for its in control processing unit 50 The work of remaining part point is controlled.

Picture storage unit 501 is stored with stamping operation picture, and stamping operation picture, which has, can allow operator's setting pre- Determine thermoprinted-image setting area and the operation button (such as start button etc.) of thermoprinted-image.

Input display unit 502 is for showing stamping operation picture, so that it is corresponding to allow operator to complete by the interface Human-computer interaction.Operator is configured predetermined thermoprinted-image in thermoprinted-image setting area.Operator is by pressing starting Key sends enabled instruction to processing side control unit 512.In the present embodiment, the setting of predetermined thermoprinted-image is specifically by place Reason side communication unit 505 imports predetermined thermoprinted-image from external equipment and operator can adjust the predetermined thermoprinted-image Whole (for example, amplification, diminution to predetermined hot stamping pattern, are changed the composition color of predetermined hot stamping pattern).

It handles side control unit 512 and controls the first driving portion 506 according to the enabled instruction of operator and generate first and drive and believe Number.

It handles side communication unit 505 and first driving signal is sent to the first driving motor 12, thus driving the first driving electricity Machine 12 is rotated, and drive shaft 111 is rotated, and then is driven and held boiling hot product supporting part 10a, is allowed and is held boiling hot product placement plate 115 drives are held boiling hot product A and are moved.

It handles side control unit 512 and controls the second driving portion 507 according to the enabled instruction of operator and generate second and drive and believe Number.

It handles side communication unit 505 and second driving signal is sent to the second driving motor, thus the second driving motor of driving It is rotated, rotates wind-up roll 211, and then drive thermoprint material strip B, thermoprint compression zone 20a is allowed to be moved.

It handles side control unit 512 and the latent latent magnetic chart of the generation of magnetic image generating unit 503 is controlled according to the enabled instruction of operator As generating signal.

Latent magnetic image is generated signal by processing side communication unit 505 scalds the generation of imaging head core 431 with predetermined by coil 432 The corresponding magnetic flux distribution of watermark image.

When magnetic flux distribution generation finishes, it is raw that processing side control unit 512 controls the first drive signal generating unit of imaging plate 508 At the first driving signal of imaging plate.

Handle side communication unit 505 and the first driving signal of imaging plate be sent to imaging plate driving motor 42, thus driving at As plate driving motor 42 drives magnetography plate 41 to be moved to from predetermined position and contact with imaging head 43, thus make electromagnetism at As the magnetic circuit of plate 41 and one closure of formation of imaging head 43, and then formation is corresponding with predetermined thermoprinted-image on magnetography plate 41 Latent magnetic negative image picture.

When the formation of latent magnetic image finishes, it is raw that processing side control unit 512 controls the second drive signal generating unit of imaging plate 509 At the second driving signal of imaging plate.

Handle side communication unit 505 and the second driving signal of imaging plate be sent to imaging plate driving motor 42, thus driving at As plate driving motor 42 drives magnetography plate 41 to be back to predetermined position.

When having the magnetography plate 41 of latent magnetic negative image picture to be located at predetermined position, the processing control heating of side control unit 512 Signal generation portion 504 generates heating signal.

It handles side communication unit 505 and heating signal is sent to high-frequency current generator 34, to be produced on electromagnetic coil 35 Raw alternating magnetic field, heats thermoprint syringe needle, and then predetermined by being formed in thermoprint material strip B thermoprint to the surface for holding boiling hot product A Thermoprinted-image.

When the formation of predetermined thermoprinted-image finishes, processing control demagnetization the first drive signal generating unit of head of side control unit 512 510 generate demagnetization the first driving signal of head.

Demagnetization the first driving signal of head is sent to and moves back head drive motor by processing side communication unit 505, to drive demagnetization First 44 are moved to and are contacted with magnetography plate 41 from demagnetization head predetermined position, and then are eliminated to latent magnetic negative image picture.

When the elimination of latent magnetic negative image picture finishes, processing control demagnetization the second drive signal generating unit of head 511 of side control unit 512 Generate demagnetization the second driving signal of head.

Demagnetization the second driving signal of head is sent to and moves back head drive motor by processing side communication unit 505, to drive demagnetization First 44 are back to demagnetization head predetermined position.

Figure 10 is step schematic diagram of the magnetic imaging number without the version thermoprinting machine course of work in the embodiment of the present invention.

Before the use without version thermoprinting machine 100, operator needs to set in thermoprinted-image the magnetic imaging number of the present embodiment It sets area and predetermined thermoprinted-image is set, and press start button after the setup.

The course of work of the magnetic imaging number without version thermoprinting machine 100 in the present embodiment are as follows:

The S1: the first driving portion of step 506 sends the first driving signal to the first driving motor 12, holds boiling hot product A and starts to move It is dynamic.

The S2: the second driving portion of step 507 sends the second driving signal to the second driving motor, and thermoprint material strip B starts to move.

Step S3: latent magnetic image generating unit 503 sends latent magnetic image generation signal to imaging head core to by coil 432 431, magnetic flux distribution corresponding with predetermined thermoprinted-image is generated on imaging head 43.

Step S4: the first drive signal generating unit of imaging plate 508 sends the first driving signal of imaging plate to imaging plate and drives Motor 42, magnetography plate 41 are contacted with imaging head 43, to be formed on magnetography plate corresponding with predetermined thermoprinted-image Latent magnetic negative image picture, specifically: when magnetography plate 41 and imaging head 43 contact, magnetography plate 41 and imaging head 43 form one The magnetic circuit of closure allows the surface covering of magnetography plate surface by the magnetization of selection row, and then is formed on magnetography plate 41 Latent magnetic image corresponding with predetermined thermoprinted-image, i.e., the latent magnetized part of magnetic image correspond to the gutter in predetermined thermoprinted-image Point, and the areas in predetermined thermoprinted-image is not magnetized.

Step S5: the second driving signal of transmission of the second drive signal generating unit of imaging plate 509 to imaging plate driving motor 42, Magnetography plate 41 is back to predetermined position, and when magnetography plate 41 is located at predetermined position, magnetography plate 41 is to print needle The print needle 321 of corresponding position in group 32 carries out attracting the print needle 321 for making electromagnetic coil 35 no longer surround corresponding position, and It regard the remaining print needle 321 still surrounded by electromagnetic coil 35 as thermoprint syringe needle.

Step S6: heating signal generating unit 504 sends heating signal to high-frequency current generator 34, makes high-frequency current Device 34 generates alternating current and is passed through electromagnetic coil 35, to heat to thermoprint syringe needle, and then extremely by thermoprint material strip B thermoprint It holds and forms predetermined thermoprinted-image on the surface of boiling hot product A.

Step S7: demagnetization the first drive signal generating unit of head 510 sends demagnetization the first driving signal of head to demagnetization head driving Motor, demagnetization head 44 are contacted with magnetography plate 41.Latent magnetic negative image picture on demagnetization 44 pairs of magnetography plates 41 of head is eliminated.

Step S8: demagnetization the second drive signal generating unit of head 511 sends demagnetization the second driving signal of head to demagnetization head driving Motor, demagnetization head 44 are back to demagnetization head predetermined position.

The action and effect of embodiment

The magnetic imaging number according to involved in the present embodiment is without version thermoprinting machine, including for holding what boiling hot product was conveyed Hold boiling hot product conveyor structure, the web feed mechanism for being conveyed to thermoprint material strip, for by the thermoprint of thermoprint material strip to holding The thermoprint mechanism and latent magnetic image formation mechanism on the surface of product are scalded, and thermoprint mechanism includes print needle group, print needle group With multiple print needles, because latent magnetic image formation mechanism can form corresponding latent magnetic image according to predetermined thermoprinted-image, from And the print needle of print needle group corresponding position is attracted, and will be scalded using the remaining print needle of print needle group as thermoprint syringe needle Print material with forming predetermined thermoprinted-image in thermoprint to the surface for holding boiling hot product, so, the magnetic imaging number of the present embodiment is scalded without version Print machine, without pushing print needle, so as to shorten the consuming time of thermoprint process, improves thermoprint work during thermoprint Efficiency.

Because further including that control processing unit has latent magnetic image generating unit, the first driving signal of imaging plate in the present embodiment The second drive signal generating unit of generating unit and imaging plate, and latent magnetic image generating unit can be according to the enabled instruction of operator Make to generate magnetic flux distribution corresponding with predetermined thermoprinted-image, the first drive signal generating unit of imaging plate and imaging plate on imaging head Second drive signal generating unit can be such that magnetography plate moves between predetermined position and imaging head, so, control processing dress Setting automatically can control latent magnetic image formation mechanism according to the enabled instruction of operator, thus on magnetography plate Latent magnetic image is formed, the degree of automation of magnetic imaging number without version thermoprinting machine is improved.

Because the latent magnetic image formation mechanism in the present embodiment also includes the demagnetization head for eliminating latent magnetic image, at control Reason device also has imaging plate third drive signal generating unit and an imaging plate fourth drive signal generating unit, and imaging plate third Drive signal generating unit and imaging plate fourth drive signal generating unit can be such that imaging plate finishes in the formation of predetermined thermoprinted-image When, move magnetography plate between predetermined position and demagnetization head, so, control processing unit can be in predetermined thermoprinted-image Latent magnetic image formation mechanism is controlled automatically when formation finishes, to make demagnetization head by latent magnetic image from magnetography plate It eliminates, and then magnetography plate is enable to carry out repeatedly the generation of latent magnetic image by remagnetizing, make magnetic imaging number without version Thermoprinting machine can will be in multiple and different predetermined thermoprinted-image thermoprints to the surface for holding boiling hot product.

Because the thermoprint mechanism in the present embodiment also includes syringe needle outer box, the position of syringe needle outer box during thermoprint always It does not change, so, during thermoprint, without the mode of print needle is pushed by the thermoprint of thermoprint material strip to holding boiling hot product On, so as to shorten the time-consuming of thermoprint process.

Further, because the syringe needle outer box of the present embodiment have outer box body and are mounted on the rubber of outer box body lower end Scraper plate, rubber flap are contacted with thermoprint material strip always during thermoprint, so, rubber flap flexible will not scratch thermoprint material The surface of band, to influence the quality of thermoprint.

Because the print needle group in the present embodiment includes multiple print needles, the arrangement mode of multiple print needles is more arrays row Column, circular array arrangement and ranks arrangement in any one, so, array arrangement multiple print needles can carry out simultaneously Thermoprint, increases the area of single thermoprint, to improve the speed of thermoprint.

Because the print needle in the present embodiment has Aculeata, Aculeata is iron Aculeata, nickel Aculeata and cobalt Any one in Aculeata processed, so, magnetic strong iron, nickel, Aculeata can be more quickly by magnetography made of cobalt Latent magnetic image on plate is attracted, so that thermoprint syringe needle can be formed quickly, and then accelerates the efficiency of thermoprint work.

Further, because the print needle of the present embodiment has needle section, needle section is arranged in electromagnetic coil, needle section For copper alloy needle section or silver alloy needle section, so, needle section made of thermal conductivity good copper alloy or silver alloy can be fast Speed is heated by electromagnetic coil, so as to more rapidly by the thermoprint of thermoprint material strip to holding on boiling hot product, so as to further shorten The consuming time of thermoprint process keeps thermoprint work more efficient.

Further, because the corresponding insertion of the print needle of the present embodiment is mounted in fixation hole, needle section is taper, fixed The aperture in hole is less than the diameter of Aculeata, so, fixation hole plays a supporting role in vertical direction to print needle, makes to print Needle can be moved upwards in vertical direction, and be fixed in the horizontal direction.

Because also comprising holding boiling hot product placement plate in the present embodiment, holds boiling hot product placement plate and be mounted on by spring horizontal and held Scald on product supporting part because when hold boiling hot product it is in uneven thickness when, make to hold boiling hot product by the resilient force of spring and begin Come into full contact with eventually with thermoprint material strip, so, by thermoprint mechanism by the thermoprint of thermoprint material strip to when holding boiling hot product, even if holding boiling hot product It is in uneven thickness, it can also be always ensured that thermoprint material strip during thermoprint and to hold coming into full contact with for boiling hot product stable to obtain Hot stamping effects.

Above embodiment is preferred case of the invention, and the protection scope being not intended to limit the invention, this field is general Logical technical staff does not need the various deformations or amendments that creative work can be made within the scope of the appended claims and still belongs to this The protection scope of patent.

Claims (10)

1. a kind of magnetic imaging number is without version thermoprinting machine, for will form predetermined scald in thermoprint material strip thermoprint to the surface for holding boiling hot product Watermark image characterized by comprising

Boiling hot product conveyor structure is held, for holding boiling hot product to described and conveying；

The top for holding boiling hot product conveyor structure is arranged in web feed mechanism, for conveying to the thermoprint material strip；

The top of the web feed mechanism is arranged in thermoprint mechanism, for the thermoprint material strip thermoprint to be held boiling hot production to described It include print needle group on the surface of product, which has multiple print needles；And

Latent magnetic image formation mechanism, is arranged in the top of the thermoprint mechanism,

The latent magnetic image formation mechanism is used to form corresponding latent magnetic negative image picture according to the predetermined thermoprinted-image, thus to institute The print needle for stating the corresponding position in print needle group is attracted, using the residue print needle of the print needle group as Thermoprint syringe needle, the thermoprint syringe needle will form the predetermined thermoprint figure in the thermoprint material strip thermoprint to the surface for holding boiling hot product Picture.

2. magnetic imaging number according to claim 1 is without version thermoprinting machine, it is characterised in that:

Wherein, the latent magnetic image formation mechanism includes positioned at the magnetography plate in predetermined position, for driving the magnetography Plate carries out the imaging head near mobile imaging plate driving motor and the setting magnetography plate,

The imaging head is used to generate corresponding magnetic flux distribution according to the predetermined thermoprinted-image,

When the imaging plate driving motor drives the magnetography plate mobile and contacts with the imaging head, the imaging head Closed magnetic circuit is formed with the magnetography plate, to make to be formed on the magnetography plate corresponding with the predetermined thermoprinted-image The latent magnetic negative image picture.

3. magnetic imaging number according to claim 2 is without version thermoprinting machine, which is characterized in that further include:

Processing unit is controlled, is communicated to connect with the latent magnetic image formation mechanism, there is latent magnetic image generating unit, imaging plate first Drive signal generating unit, the second drive signal generating unit of imaging plate, processing side communication unit and processing side control unit,

The processing side control unit generates latent magnetic image according to the enabled instruction of the operator control latent magnetic image generating unit Signal is generated,

The latent magnetic image is generated signal and is sent to the imaging head by the processing side communication unit, thus raw on the imaging head At the magnetic flux distribution corresponding with the predetermined thermoprinted-image,

When magnetic flux distribution generation finishes, the processing side control unit controls first drive signal generating unit of imaging plate The first driving signal of imaging plate is generated,

First driving signal of imaging plate is sent to the imaging plate driving motor by the processing side communication unit, to drive The imaging plate driving motor drives the magnetography plate to be moved to from the predetermined position and contacts with the imaging head, And then the latent magnetic negative image picture is formed on the magnetography plate,

When the latent magnetic negative image picture formation finishes, the processing side control unit controls second driving signal of imaging plate and generates Portion generates the second driving signal of imaging plate,

Second driving signal of imaging plate is sent to the imaging plate driving motor by the processing side communication unit, to drive The imaging plate driving motor drives the magnetography plate to be back to the predetermined position.

4. magnetic imaging number according to claim 3 is without version thermoprinting machine, it is characterised in that:

Wherein, the thermoprint mechanism also includes around the electromagnetic coil and high-frequency current being arranged in around the thermoprint syringe needle Generator,

The high-frequency current generator is electrically connected with the electromagnetic coil, for generating alternating current, so that the electromagnetism Coil can generate alternating magnetic field, and then heat to the thermoprint syringe needle,

The control processing unit is also communicated to connect with the thermoprint mechanism, also has heating signal generating unit,

When the magnetography plate with the latent magnetic negative image picture is located at the predetermined position, processing side control unit control It makes the heating signal generating unit and generates heating signal,

The heating signal is sent to the high-frequency current generator by the processing side communication unit, thus in the electromagnetic coil It is upper to generate the alternating magnetic field, the thermoprint syringe needle is heated, and then the thermoprint material strip thermoprint is held into boiling hot production to described The predetermined thermoprinted-image is formed on the surface of product.

5. magnetic imaging number according to claim 4 is without version thermoprinting machine, it is characterised in that:

Wherein, the latent magnetic image formation mechanism also includes the demagnetization head predetermined position being arranged near the magnetography plate Demagnetization head and for drive the demagnetization head it is mobile move back head drive motor,

When it is described move back head drive motor drive the demagnetization head from the demagnetization head predetermined position to the magnetography plate into When row is moved and contacted with the magnetography plate, which removes the latent magnetic negative image picture,

Also there is the control processing unit demagnetization the first drive signal generating unit of head and demagnetization the second driving signal of head to generate Portion,

When the predetermined thermoprinted-image formation finishes, processing side control unit control first driving signal of the demagnetization head is raw Demagnetization the first driving signal of head is generated at portion,

The processing side communication unit by the first driving signal of the demagnetization head be sent to it is described move back head drive motor, to drive The demagnetization head is moved to from the demagnetization head predetermined position and is contacted with the magnetography plate, and then to the latent magnetic yin Image is eliminated,

When the latent magnetic negative image picture elimination finishes, processing side control unit control second driving signal of the demagnetization head is generated Portion generates demagnetization the second driving signal of head,

The processing side communication unit by the second driving signal of the demagnetization head be sent to it is described move back head drive motor, to drive The demagnetization head is back to the demagnetization head predetermined position.

6. magnetic imaging number according to claim 3 is without version thermoprinting machine, which is characterized in that further include:

Wherein, the web feed mechanism includes the second conveying assembly and the second driving motor,

Second conveying assembly includes Scroll, at least two guide reels and the unreeling shaft set gradually,

The both ends of the thermoprint material strip are socketed on the Scroll and the unreeling shaft respectively and successively bypass the guide reel,

Using between at least two guide reel and be arranged in the thermoprint material strip below the thermoprint mechanism as scald Compression zone is printed, the thermoprint compression zone is located at the top for holding boiling hot product,

The wind-up roll is mounted on the output end of second driving motor, and second driving motor is for driving the receipts Winding up roller is rotated,

The control processing unit is also connect with the web feed institutional communication, also has the second driving portion,

The processing side control unit controls second driving portion according to the enabled instruction of the operator and generates the second driving Signal,

Second driving signal is sent to second driving motor by the processing side communication unit, to drive described second Driving motor is rotated, and the wind-up roll is rotated, and then drives the thermoprint material strip, allow the thermoprint compression zone into Row movement.

7. magnetic imaging number according to claim 3 is without version thermoprinting machine, it is characterised in that:

Wherein, it is described hold boiling hot product conveyor structure include the first conveying assembly and the first driving motor,

First conveying assembly has drive shaft, tensioning shaft, idler roller, conveyor belt and holds boiling hot product placement plate,

The drive shaft, the tensioning shaft and the idler roller are parallel to each other,

The drive shaft and the idler roller are respectively positioned on first level face, and the tensioning shaft is located under the first level face Side,

The conveyor belt is socketed in simultaneously on the drive shaft, the tensioning shaft and the idler roller, will be located at the drive The conveyor belt between moving axis and the idler roller, which is used as, holds boiling hot product supporting part, described to hold boiling hot product supporting part for holding Boiling hot product is held described in load,

It is described hold boiling hot product placement plate by spring horizontal be mounted on it is described hold on boiling hot product supporting part, for place it is described hold it is boiling hot Product, thus when it is described hold boiling hot product it is in uneven thickness when, make described to hold boiling hot product by the resilient force of the spring Always it is come into full contact with the thermoprint material strip,

The drive shaft is mounted on the output end of first driving motor, and first driving motor is for driving the drive Moving axis is rotated,

The control processing unit also holds boiling hot product conveyor structure communication connection with described, also has the first driving portion,

The processing side control unit controls first driving portion according to the enabled instruction of the operator and generates the first driving Signal,

First driving signal is sent to first driving motor by the processing side communication unit, to drive described first Driving motor is rotated, and the drive shaft is rotated, and then holds boiling hot product supporting part described in driving, and is allowed and described is held boiling hot production Product are moved.

8. magnetic imaging number according to claim 1 is without version thermoprinting machine, it is characterised in that:

Wherein, the thermoprint mechanism also includes syringe needle outer box,

The print needle group is installed, the syringe needle outer box have outer box body and are mounted on described outer inside the syringe needle outer box The rubber flap of box body lower end,

The rubber flap is contacted with the thermoprint material strip.

9. magnetic imaging number according to claim 1 is without version thermoprinting machine, it is characterised in that:

Wherein, the arrangement mode of the multiple print needle is in the arrangement of more arrays, circular array arrangement and the arrangement of row array Any one.

10. magnetic imaging number according to claim 1 is without version thermoprinting machine, it is characterised in that:

Wherein, the print needle has needle section and Aculeata, which is located at the top of the needle section,

The Aculeata is any one in iron Aculeata, nickel Aculeata and cobalt Aculeata,

The needle section is arranged in the electromagnetic coil, and the needle section is copper alloy needle section or silver alloy needle section.