CN102501576B - Image transfer device for tattoo - Google Patents

Abstract

The invention relates to an image transfer device for a tattoo. The device comprises a machine base unit, a panel unit, a turning plate unit, an upper cover unit, a foundation unit, and a main control unit; the machine base unit comprises a machine base, a scanning unit, a printing unit, a transmission unit and a power supply; the panel unit comprises a panel, a light-emitting diode (LED) display, conductive rubber, a key, a keyboard, and an engraving plate; the turning plate unit comprises a turning plate, a printing pressure shaft, a printing pressure shaft sleeve and a printing pressure shaft gear; the upper cover unit comprises an upper cover and a paper outlet limit beam; and the foundation unit comprises a foundation, a main plate, a paper outlet guide sheet, and a scanner pressure spring. By using the device, a linear draft can be automatically transferred to tattoo transfer paper, or an exquisite tattoo pattern on a computer is automatically printed on the tattoo transfer paper, so drawing time is saved, the tattoo pattern with the brand new design can be converted into actual works quickly, the communication and collaboration in industry is enhanced, and the device promotes the tattoo industry.

Description

A kind of image transfer device be used to tatooing

Technical field

The transfer technique of image, particularly a kind of image transfer device be used to tatooing the present invention relates to tatoo.

Background technology

In the tradition industry of tatooing, the image of tatooing many by teacher of the tatooing with linear original text Freehandhand-drawing on skin, or by teacher of the tatooing with linear original text Freehandhand-drawing on the transfer paper of tatooing, be imprinted on the skin again.These two kinds of method efficient are lower, and along with the fast development of the industry of tatooing, this traditional mode becomes the bottleneck that restriction is tatooed and developed gradually.

Summary of the invention

In view of above-mentioned prior art situation, the present invention designs a kind of image transfer device be used to tatooing.This device scans linear original text, and just view data is carried out analog-to-digital conversion and effect reinforcement processing.The user can select the printing type of mirror image, non-mirror image, and when selecting the mirror image mode, device carries out mirror image reversal with all scan-datas.View data after the conversion prints on the transfer paper of tatooing by the mode of hot transfer printing.

This device also can pass through USB interface, and the picture on the computer is transferred in the device, and the user can select the printing type of mirror image, non-mirror image, and when selecting the mirror image mode, device carries out mirror image reversal with all view data.View data after the conversion prints on the transfer paper of tatooing by the mode of hot transfer printing.

The technical scheme that the present invention takes is: a kind of image transfer device be used to tatooing, it is characterized in that: comprise support unit, panel unit, flap unit, cover unit, base unit and main control unit, wherein the support unit comprises support, scanning element, print unit, gear unit and power supply; Panel unit comprises panel, light-emitting diode display, conductive rubber, button, finger-board and inscription plate; Flap unit comprises turnover panel, force of impression axle, force of impression axle sleeve and force of impression shaft gear; Cover unit comprises loam cake and the spacing Beam of paper delivery; Base unit comprises base, main control unit mainboard, paper delivery guide card and scanning compression spring; The support unit is fixed on the base by support, and cover unit is separately fixed on the panel by loam cake and on the support, flap unit is fixed on by turnover panel and covers, and panel unit is fixed on the support by panel, and described main control unit is connected with PC.

The beneficial effect that the present invention produces is: take this device linear original text can be transferred on the transfer paper of tatooing automatically, or the fineness on the computer tatooed the pattern automatic printing to the transfer paper of tatooing, save drawing time, and can make the pattern of tatooing of brand-new design be converted into rapidly actual works, strengthen exchanging cooperation in the industry, the industry of tatooing is played the propelling facilitation.

Description of drawings

Fig. 1 is overall structure schematic top plan view of the present invention.

Fig. 2 is overall structure schematic side view of the present invention.

Fig. 3 is support cellular construction schematic top plan view.

Fig. 4 is that schematic diagram is looked on a support cellular construction left side.

Fig. 5 is that schematic diagram is looked on support cellular construction right side.

Fig. 6 is support cellular construction elevational schematic view.

Fig. 7 is panel unit structure schematic top plan view.

Fig. 8 is panel unit structure elevational schematic view.

Fig. 9 is flap unit structure schematic top plan view.

Figure 10 is flap unit structure schematic rear view.

Figure 11 is cover unit structure schematic top plan view.

Figure 12 is that cover unit structure master looks schematic diagram.

Figure 13 is base unit structure schematic top plan view.

Figure 14 is base unit structure schematic side view.

Figure 15 is main control unit catenation principle block diagram of the present invention.

Figure 16 is that main control unit is printed the control circuit schematic diagram

Figure 17 is main control unit scan control circuit schematic diagram.

Figure 18 is that main control unit system dominant frequency clock sends circuit, real-time clock circuit for generating, electric voltage observation circuit and sensor detection circuit schematic diagram.

Figure 19 is main control unit stepper motor control circuit and keyboard control circuit schematic diagram.

Figure 20 is main control unit liquid crystal display control circuit and buzzer control circuit schematic diagram.

Figure 21 is that the main control unit serial ports turns USB mouth control circuit schematic diagram.

The specific embodiment

The invention will be further described below in conjunction with accompanying drawing: referring to figs. 1 through Figure 14, a kind of image transfer device be used to tatooing comprises support unit 1, panel unit 2, flap unit 3, cover unit 4, base unit 5 and main control unit, and wherein support unit 1 comprises support 11, scanning element 12, print unit 13, gear unit 14 and power supply 15; Panel unit 2 comprises panel 21, light-emitting diode display 22, conductive rubber 23, button 24, finger-board 25 and inscription plate 26; Flap unit 3 comprises turnover panel 31, force of impression axle 32, force of impression axle sleeve 33 and force of impression shaft gear 34; Cover unit 4 comprises loam cake 41 and the spacing Beam 42 of paper delivery; Base unit 5 comprises base 51, main control unit mainboard 52, paper delivery guide card 53 and scanning compression spring 54; Support unit 1 is fixed on the base 51 by support 11, cover unit 4 is separately fixed on the panel 21 by loam cake 41 and on the support 11, flap unit 3 is fixed on the loam cake 41 by turnover panel 31, and panel unit 2 is fixed on the support 11 by panel 21, and main control unit is connected with PC.

The functions such as the transmission of complete machine, scanning, printing are all realized by the support unit.Remaining part is around its common complete machine function that realizes.Base is the bottommost of complete machine, and the support unit is fixed on the base by four tapping screws, and cover unit utilizes the elasticity of plastics to be fixed on the support by locating hole and location hook, and flap unit covers in upper by the flexible fastening of plastics.Panel unit equally also is to utilize the elasticity of plastics to be fixed on the complete machine by shaft hole matching.

With reference to Fig. 3 to Fig. 6, scanning element 12 comprises scanner 120, scanning pressure axis 121, scanner clamp 122, scanning pressure axle sleeve 123 and contribution sensor (124), scanner 120 is packed in the stopper slot of support 11, respectively be inserted in the scanner axis hole of the support 11 of packing into behind the scanning pressure axle sleeve 123 at scanning two ends, pressure axis 121 left and right sides, scanner clamp 122 fixed scanners 120 in the stopper slot of support 11 of packing into, contribution sensor 124 are packed in the installation of sensors groove of support 11 bottoms; Print unit 13 comprises printer 130, sensor 131, left and right sides fixed support 132, printer compression spring 133 and printer left and right sides pressure reed 134, printer 130 is fixed in the printer stopper slot of support 11 by left and right sides fixed support 132, sensor 131 is packed into and is screwed in the installation of sensors groove of support 11 bottoms, printer compression spring 133 is enclosed within on the spring fixed column of support 11, and printer left and right sides pressure reed 134 is printer 130 fixedly; Gear unit 14 comprises motor 140, idle pulley ring 141, idle pulley sheet 142, scanning pressure axis gear 143, turntable driving secondary gear 144, turntable driving one-level gear 145, driven wheel 146, print to drive one-level gear 147 and print and drive secondary gear 148, motor 140 is fixed on the medial surface of support 11, idle pulley ring 141 is provided with two idle pulley ring hooks 1410, idle pulley ring pillar 1411 and idle pulley ring screwed hole 1412, idle pulley ring 141 hangs on the idle pulley annular groove of support 11 by two idle pulley ring hooks 1410, scanning pressure axis gear 143 is enclosed within on the scanning pressure axis 121, driven wheel 146 is enclosed within on the idle pulley ring pillar 1411, idle pulley sheet 142 also is enclosed within on the idle pulley ring pillar 1411 simultaneously, idle pulley sheet 142 is provided with idle pulley sheet pillar 1420, turntable driving one-level gear 145 is enclosed within on the idle pulley sheet pillar 1420, the lateral surface of support 11 is provided with turntable driving secondary gear pillar 110, turntable driving secondary gear 144 is enclosed within on the turntable driving secondary gear pillar 110, the side of support 11 is respectively equipped with printing and drives one-level gear fixed axis 111 and printing driving secondary gear fixed axis 112, and printing drives one-level gear 147 and printing driving secondary gear 148 drives one-level gear fixed axis 111 with printing respectively and printing driving secondary gear fixed axis 112 is threaded.

Scanning element is by the CIS(scanner), CIS axle sleeve, CIS clamp and CIS axle be assembled on the support, CIS directly packs in the stopper slot of support, CIS axle the right and left respectively is inserted in a CIS axle sleeve, then pack in the CIS axis hole of main engine bed, then the CIS axle sleeve is rotated respectively forwards, backwards, make in the fixing locating slot with main engine bed of the raised points of CIS axle sleeve, the main engine bed of at last the CIS clamp being packed into, the CIS fore-and-aft direction is spacing.

Print unit TPH(printer) left and right sides support is contained in the two ends, the left and right sides of TPH by four screw ingots, the TPH stopper slot of packing into of the parts after then will assembling.The material of TPH left and right sides support is stainless steel substrates, by the elastic part of compression left and right sides support, the pressure that provides printing mechanism to need, consistent with middle pressure for guaranteeing the right and left, provide elastic force with the right and left equalization by the TPH compression spring in the middle of the TPH mechanism, guarantee that printing effect is even.

Gear unit is to be made of motor, idle pulley ring, idle pulley sheet and gear train.Motor is attacked screw by two machines and is fixed on the support, and not using tapping screw is in order to guarantee that motor, can be owing to screw loosening causes disabler under the work of long-term high load capacity.Gear is fixed on the support in the mode of shaft hole matching, then ingot dress tapping screw.Gear train rotates the rotation that drives the idle pulley sheet by motor with positive and negative and reaches the switching of printing with scan function.The motor forward rotation, the moving idle pulley sheet of idle pulley endless belt switches to the duplicating state, at this moment prints and scans simultaneously and carry out.The motor backward rotation, the idle pulley ring cutting is changed to print state, at this moment only prints and does not scan.

With reference to Fig. 7 and Fig. 8, the button 24 of panel unit 2 comprises start key 240, stop key 241 and function key 242, and be fixed on the panel 21, conductive rubber 23 places the bottom of panel 21, and be that the zero clearance cooperates with the bottom of panel 21, finger-board 25 is fixed on the conductive rubber 23, light-emitting diode display 22 is fixed on the inside of panel 21, the panel 21 of corresponding light-emitting diode display 22 is provided with inscription plate stopper slot, inscription plate 26 sticks in the inscription plate stopper slot, panel 21 two ends are provided with extension arm 210, the inboard of extension arm 210 is provided with fixed axis 2100, loam cake 41 is provided with the panel fixing hole, panel 21 is packed into by fixed axis 2100 in the panel fixing hole on the loam cake 41, and the inboard is provided with panel hook 211 about panel 21 front portions, and support 11 front ends are provided with two panel hanging platforms 115, two panel hooks 211 hang on two panel hanging platforms 115, and panel 21 is connected by the hook hanging platform with support 11.

The inscription plate of panel unit adopts double faced adhesive tape, directly pastes during assembling in the inscription plate stopper slot of panel.Each button of panel, light-emitting diode display, conductive rubber, finger-board are fixed in corresponding position sequentially, then fix by tapping screw.

With reference to Fig. 9 and Figure 10, the turnover panel 31 front end left and right sides of flap unit 3 are provided with the force of impression axis hole, force of impression axle 32 is contained in the force of impression axis hole, force of impression axle sleeve 33 and force of impression shaft gear 34 are contained on the force of impression axle 32, turnover panel 31 is provided with turnover panel fixed axis 310, loam cake 41 is provided with the turnover panel locating hole, and turnover panel fixed axis 310 is enclosed within the turnover panel locating hole of loam cake 41, and turnover panel 31 and loam cake 41 are connected by shaft hole matching.

Flap unit force of impression axle, force of impression axle sleeve and turnover panel are assembled by shaft hole matching, at fixing force of impression shaft gear place holddown groove are arranged, the boss of force of impression shaft gear fixing with stopper slot in reach the purpose of fixed gear.Flap unit and loam cake are by shaft hole matching, and two fixed axis of turnover panel are fixed in the locating hole of loam cake, and the position length of two locating holes reaches the purpose of assembling greater than the position length of turnover panel fixed axis by the strain of plastics during assembling.

With reference to Figure 11 and Figure 12, the loam cake 41 of cover unit 4 is provided with louvre 410, two locating holes 411 and two location hooks 412, support 11 is provided with two loam cake locating dowels 113 and two loam cake hanging platforms 114, two loam cake locating dowels 113 of support 11 are packed in the locating hole 411 of loam cake 41, two location hooks 412 on the loam cake 41 hang on two loam cake hanging platforms 114 of support 11, loam cake 41 and support 11 are connected by locating hole and locating dowel and hook and hanging platform respectively, and the spacing Beam 42 of paper delivery is matched in clearance with the paper of walking on support 11 front ends.

With reference to Figure 13 and Figure 14, the main control unit mainboard 52 of base unit 5 and scanner compression spring 54 are separately fixed at base 51 inside, paper delivery guide card 53 sticks on base 51 front ends, embed and be pasted with feet 55 in the stepped hole at base 51 back sides, base 51 is provided with screw hole and the locating dowel that is fixedly connected with support 11, support 11 is provided with locating hole, and support 11 is fixed on the base 51 by the screw hole on locating hole and the base 51 and locating dowel.

Main control unit mainboard on the base unit is loaded on the base by the tapping screw ingot, and there is double faced adhesive tape at the paper delivery guide card back side, is pasted on the base, guarantees that paper passes through base smoothly.

With reference to Figure 15, main control unit comprises that single-chip microcomputer and the system's dominant frequency clock that is connected with single-chip microcomputer respectively send circuit, real-time clock circuit for generating, electric voltage observation circuit, printing control circuit, scan control circuit, sensor detection circuit, stepper motor control circuit, liquid crystal display control circuit, keyboard control circuit, buzzer control circuit, serial ports and turn USB mouth control circuit, program storage, data storage and page memory, and program storage, data storage and page memory are connected data wire and are connected with single-chip microcomputer.

With reference to Figure 16, single-chip microcomputer N1 adopts the FC100 chip, print control circuit thermal printing device socket XS1 1 pin, 2 pin and 3 pin with connect+24V voltage after the end of electrochemical capacitor C1 is connected, 3 pin of thermal printing device socket XS1 connect an end of capacitor C 4, and 4 pin, 5 pin of thermal printing device socket XS1 and the pin of being connected are connected with the other end of capacitor C 4 after connecting; Ground connection after being connected with the other end of electrochemical capacitor C1 again, 7 pin of thermal printing device socket XS1 with connect+5V voltage after an end of capacitor C 12 is connected, 8 pin of thermal printing device socket XS1 connect an end of capacitor C 13, one end of resistance R 8, one end of resistance R 9 and 65 pin of single-chip microcomputer N1, the other end of capacitor C 12 is connected rear ground connection with the other end of capacitor C 13 and the other end of resistance R 8, the other end of resistance R 9 with connect+5V voltage after 37 pin of single-chip microcomputer N1 are connected, 13 pin of thermal printing device socket XS1 are connected with an end of resistance R 1, the other end of resistance R 1 and an end that connects capacitor C 3 after 29 pin of single-chip microcomputer N1 are connected, the end of the 14 pin contact resistance R2 of thermal printing device socket XS1, the other end of resistance R 2 and an end that connects capacitor C 2 after 31 pin of single-chip microcomputer N1 are connected, ground connection after the other end of capacitor C 2 is connected with the other end of capacitor C 3,15 pin of thermal printing device socket XS1 connect 30 pin of single-chip microcomputer N1,9 pin of thermal printing device socket XS1 connect 36 pin of single-chip microcomputer N1,10 pin of thermal printing device socket XS1 connect 35 pin of single-chip microcomputer N1,11 pin of thermal printing device socket XS1 connect 34 pin of single-chip microcomputer N1, and 12 pin of thermal printing device socket XS1 connect 33 pin of single-chip microcomputer N1.

With reference to Figure 17,1 pin of the scanner socket XS8 of scan control circuit connects the negative pole of diode V13, one end of the positive pole of diode V12 and resistance R 666, ground connection after 2 pin of scanner socket XS8 are connected with the positive pole of diode V13, the end of the 3 pin connecting resistance R86 of scanner socket XS8, one end of resistance R 67 and an end of capacitor C 99, another termination of resistance R 86+5V voltage, another termination of resistance R 67+3.3V voltage, 4 pin of scanner socket XS8 are connected with 101 pin of single-chip microcomputer N1 by resistance R 68,5 pin of scanner socket XS8 are by resistance R 70 and 98 pin that meet single-chip microcomputer N1 after an end of capacitor C 97 is connected, the end of the 7 pin contact resistance R71 of scanner socket XS8 and an end of capacitor C 98, another termination of resistance R 71+24V voltage, 6 pin of scanner socket XS8 with connect triode V14 colelctor electrode after the other end of capacitor C 98 is connected, the end of triode V14 base stage contact resistance R72, the other end of resistance R 72 is connected with 110 pin of single-chip microcomputer N1, ground connection after triode V14 grounded emitter, the other end of capacitor C 97 are connected with the other end of capacitor C 99.

With reference to Figure 18 to Figure 21,125 pin that system's dominant frequency clock sends circuit and single-chip microcomputer N1 with are connected pin and are connected; 59 pin of real-time clock circuit for generating and single-chip microcomputer N1 with are connected pin and are connected; Electric voltage observation circuit is connected with 62 pin, 131 pin of single-chip microcomputer N1 and the pin of being connected; 49 pin of sensor detection circuit and single-chip microcomputer N1 with are connected pin and are connected; The stepper motor control circuit adopts motor driver, and motor driver is connected with 106 pin, 105 pin, 104 pin of single-chip microcomputer N1 and the pin of being connected; Keyboard control circuit is connected with 47 pin, 46 pin, 44 pin, 52 pin of single-chip microcomputer N1 and the pin of being connected; 75 pin of liquid crystal display control circuit and single-chip microcomputer N1 with are connected pin and are connected; The buzzer control circuit is connected with 119 pin of single-chip microcomputer N1; Serial ports turns USB mouth control circuit and adopts serial ports to turn USB mouth chip, 92 pin that serial ports turns USB mouth chip and single-chip microcomputer N1 with are connected pin and are connected.

Main control unit and stepper motor, thermal printing head, scanner, sensor, keyboard, liquid crystal and PC are connected and connect the purpose that realizes transfer printing, and the power supply of main control unit is finished by the power module of outsourcing.

Operation principle of the present invention: system architecture figure as shown in Figure 2, it is to duplicate and the functions such as PC printing, demonstration that this owner wants function, therefore peripheral interface circuit designs according to required function.Adopt single motor control to duplicate and printing, by rotation direction and the rotating speed of software control motor, drive the transmission mechanism that scanner uni is printed, thereby realize duplicating and printing function.

The serial ports that serial ports turns the employing of USB mouth control circuit turns USB mouth special chip, and this chip is deferred to the USB2.0 agreement fully, supports the conversion of RS-232 interface.There is the converter of 5V-3.3V inside.This chip needs less peripheral circuit just can realize the translation function of serial ports and USB mouth.Keyboard and liquid-crystal display section all are to be realized by the control of single-chip microcomputer.Be 122 * 32 Lattice display models and have blue backlight function at this liquid crystal of this part.The power supply of this device be two-way output+24V and+5V.When main control unit provided low level for the control pin ,+24V output circuit was cut off, otherwise is switched on, thus the reliability of complete machine when having guaranteed standby.What motor control circuit adopted is dc stepper motor, to the specific GPIO mouth output of single-chip microcomputer control signal, comes CD-ROM drive motor through motor drive circuit.

This device need to link to each other with PC, issues the function of printing from the PC end to realize picture, and its flow process is:

(1) detect USB and insert information: if there is USB to insert information, channel connects;

(2) transfer of data: the print job that print driver produces the writings and image handling procedure on the PC is depicted as the view data of the transfer device identification of can being tatooed, then, with the page layout of print from the definition control command sequence description print job etc.At last, by the physical connection between PC and the transfer printing control device data and command sequence are sent to the transfer printing control device and finish print job.

(3) data-printing: the transfer paper of tatooing is placed on paper feed port, and software is by controlling TPH and printing mechanism with image printing out.

The transfer device of tatooing is realized linear original text is transferred to function on the transfer paper of tatooing automatically, and its software flow step is:

(1) data scanning: by control CIS and sweep mechanism, linear original text is scanned in the device.

(2) image is processed: the view data of scanning is carried out the images such as sharpening, edge be level and smooth process, strengthen image effect.

(3) counter-rotating about when mirror printed, need to carrying out in real time to view data.

(4) data-printing: the transfer paper of tatooing is placed on paper feed port, and software is by controlling TPH and printing mechanism with image printing out.

The temperature control of this device: consider from the printing aspect, because transfer paper is special, material and thickness all are different from common paper, need to control as requested temperature during printing, to satisfy the effect of mirror printed.So when printing, consider that temperature must reach certain requirement on the one hand, could be when mirror printed good transferring effect, if excess Temperature can cause transfer paper fold or one page not to print just warning on the other hand, in view of the consideration of this two aspect, need to adjust according to the test result of reality the calorimeter of TPH.

The operating principle of this device: 1, contribution is when initial position, by manually contribution being sent in the complete machine, sensor in the machine has detected contribution and has inserted, at this moment motor driving CIS axle, drive contribution by the frictional force between axle, paper and the scanner and travel forward, until contribution is all finished scanning.2, by manually paper being placed between TPH axle and the TPH, when printing beginning, motor driving TPH axle rotates, and at this moment drives paper by the frictional force between TPH roller, paper and the TPH and carries out the straight line uniform motion, until at this moment paper has just finished the motion of print paper fully by the TPH axle.3, when printing was carried out simultaneously with scanning, motor drives simultaneously the CIS axle and the TPH axle rotates, and contribution and paper are moved simultaneously, finishes the function of scanning transfer printing.

Claims (10)

1. one kind is used for the image transfer device tatoo, it is characterized in that: comprise support unit (1), panel unit (2), flap unit (3), cover unit (4), base unit (5) and main control unit, wherein support unit (1) comprises support (11), scanning element (12), print unit (13), gear unit (14) and power supply (15); Panel unit (2) comprises panel (21), light-emitting diode display (22), conductive rubber (23), button (24), finger-board (25) and inscription plate (26); Flap unit (3) comprises turnover panel (31), force of impression axle (32), force of impression axle sleeve (33) and force of impression shaft gear (34); Cover unit (4) comprises loam cake (41) and the spacing Beam of paper delivery (42); Base unit (5) comprises base (51), main control unit mainboard (52), paper delivery guide card (53) and scanning compression spring (54); Support unit (1) is fixed on the base (51) by support (11), cover unit (4) is separately fixed on the upper and support (11) of panel (21) by loam cake (41), flap unit (3) is fixed on the loam cake (41) by turnover panel (31), panel unit (2) is fixed on the support (11) by panel (21), and described main control unit is connected with PC.

2. a kind of image transfer device be used to tatooing as claimed in claim 1, it is characterized in that: described scanning element (12) comprises scanner (120), scanning pressure axis (121), scanner clamp (122), scanning pressure axle sleeve (123) and contribution sensor (124), scanner (120) is packed in the stopper slot of support (11), respectively be inserted in the scanner axis hole of the support (11) of packing into behind the scanning pressure axle sleeve (123) at scanning pressure axis (121) two ends, the left and right sides, scanner clamp (122) fixed scanners (120) in the stopper slot of support (11) of packing into, contribution sensor (124) are packed in the installation of sensors groove of support (11) bottom; Described print unit (13) comprises printer (130), sensor (131), left and right sides fixed support (132), printer compression spring (133) and printer left and right sides pressure reed (134), printer (130) is fixed in the printer stopper slot of support (11) by left and right sides fixed support (132), sensor (131) is packed into and is screwed in the installation of sensors groove of support (11) bottom, printer compression spring (133) is enclosed within on the spring fixed column of support (11), and printer left and right sides pressure reed (134) is printer (130) fixedly; Described gear unit (14) comprises motor (140), idle pulley ring (141), idle pulley sheet (142), scanning pressure axis gear (143), turntable driving secondary gear (144), turntable driving one-level gear (145), driven wheel (146), print to drive one-level gear (147) and print and drive secondary gear (148), motor (140) is fixed on the medial surface of support (11), idle pulley ring (141) is provided with two idle pulley ring hooks (1410), idle pulley ring pillar (1411) and idle pulley ring screwed hole (1412), idle pulley ring (141) is linked up with on the idle pulley annular groove that (1410) hang over support (11) by two idle pulley rings, scanning pressure axis gear (143) is enclosed within on the scanning pressure axis (121), driven wheel (146) is enclosed within on the idle pulley ring pillar (1411), idle pulley sheet (142) also is enclosed within on the idle pulley ring pillar (1411) simultaneously, idle pulley sheet (142) is provided with idle pulley sheet pillar (1420), turntable driving one-level gear (145) is enclosed within on the idle pulley sheet pillar (1420), the lateral surface of support (11) is provided with turntable driving secondary gear pillar (110), turntable driving secondary gear (144) is enclosed within on the turntable driving secondary gear pillar (110), the side of support (11) is respectively equipped with printing driving one-level gear fixed axis (111) and prints driving secondary gear fixed axis (112), and printing driving one-level gear (147) and printing drive secondary gear (148) and be threaded with printing driving one-level gear fixed axis (111) and printing driving secondary gear fixed axis (112) respectively.

3. a kind of image transfer device be used to tatooing as claimed in claim 1, it is characterized in that: the button (24) of described panel unit (2) comprises start key (240), stop key (241) and function key (242), and be fixed on the panel (21), conductive rubber (23) places the bottom of panel (21), and be that the zero clearance cooperates with the bottom of panel (21), finger-board (25) is fixed on the conductive rubber (23), light-emitting diode display (22) is fixed on the inside of panel (21), the panel (21) of corresponding light-emitting diode display (22) is provided with inscription plate stopper slot, inscription plate (26) sticks in the inscription plate stopper slot, panel (21) two ends are provided with extension arm (210), the inboard of extension arm (210) is provided with fixed axis (2100), described loam cake (41) is provided with the panel fixing hole, panel (21) is packed into by fixed axis (2100) in the panel fixing hole on the loam cake (41), the inboard is provided with panel hook (211) about panel (21) front portion, described support (11) front end is provided with two panel hanging platforms (115), two panel hooks (211) hang on two panel hanging platforms (115), and panel (21) is connected by the hook hanging platform with support (11).

4. a kind of image transfer device be used to tatooing as claimed in claim 1, it is characterized in that: turnover panel (31) the front end left and right sides of described flap unit (3) is provided with the force of impression axis hole, force of impression axle (32) is contained in the force of impression axis hole, force of impression axle sleeve (33) and force of impression shaft gear (34) are contained on the force of impression axle (32), turnover panel (31) is provided with turnover panel fixed axis (310), described loam cake (41) is provided with the turnover panel locating hole, turnover panel fixed axis (310) is enclosed within the turnover panel locating hole of loam cake (41), and turnover panel (31) is connected by shaft hole matching with loam cake (41).

5. such as claim 1 or a kind of image transfer device be used to tatooing claimed in claim 2, it is characterized in that: the loam cake (41) of described cover unit (4) is provided with louvre (410), two locating holes (411) and two location hooks (412), described support (11) is provided with two loam cake locating dowels (113) and two loam cake hanging platforms (114), two loam cake locating dowels (113) of support (11) are packed in the locating hole (411) of loam cake (41), two location hooks (412) on the loam cake (41) hang on two loam cake hanging platforms (114) of support (11), loam cake (41) and support (11) are connected by locating hole and locating dowel and hook and hanging platform respectively, and the spacing Beam of paper delivery (42) is matched in clearance with the paper of walking on support (11) front end.

6. a kind of image transfer device be used to tatooing as claimed in claim 1, it is characterized in that: the main control unit mainboard (52) of described base unit (5) and scanner compression spring (54) are separately fixed at base (51) inside, paper delivery guide card (53) sticks on base (51) front end, embed and be pasted with feet (55) in the stepped hole at base (51) back side, base (51) is provided with screw hole and the locating dowel that is fixedly connected with support (11), support (11) is provided with locating hole, and support (11) is fixed on the base (51) by the screw hole on locating hole and the base (51) and locating dowel.

7. a kind of image transfer device be used to tatooing as claimed in claim 1, it is characterized in that: described main control unit comprises that single-chip microcomputer N1 sends circuit with the system's dominant frequency clock that is connected with single-chip microcomputer N1 respectively, the real-time clock circuit for generating, electric voltage observation circuit, print control circuit, scan control circuit, sensor detection circuit, the stepper motor control circuit, liquid crystal display control circuit, keyboard control circuit, the buzzer control circuit, serial ports turns USB mouth control circuit, program storage, data storage and page memory, program storage, data storage is connected data wire and is connected with single-chip microcomputer N1 with page memory.

8. a kind of image transfer device be used to tatooing as claimed in claim 7, it is characterized in that, described single-chip microcomputer N1 adopts the FC100 chip, print control circuit thermal printing device socket XS1 1 pin, 2 pin and 3 pin with connect+24V voltage after the end of electrochemical capacitor C1 is connected, 3 pin of thermal printing device socket XS1 connect an end of capacitor C 4, and 4 pin, 5 pin of thermal printing device socket XS1 and the pin of being connected are connected with the other end of capacitor C 4 after connecting; Ground connection after being connected with the other end of electrochemical capacitor C1 again, 7 pin of thermal printing device socket XS1 with connect+5V voltage after an end of capacitor C 12 is connected, 8 pin of thermal printing device socket XS1 connect an end of capacitor C 13, one end of resistance R 8, one end of resistance R 9 and 65 pin of single-chip microcomputer N1, the other end of capacitor C 12 is connected rear ground connection with the other end of capacitor C 13 and the other end of resistance R 8, the other end of resistance R 9 with connect+5V voltage after 37 pin of single-chip microcomputer N1 are connected, 13 pin of thermal printing device socket XS1 are connected with an end of resistance R 1, the other end of resistance R 1 and an end that connects capacitor C 3 after 29 pin of single-chip microcomputer N1 are connected, the end of the 14 pin contact resistance R2 of thermal printing device socket XS1, the other end of resistance R 2 and an end that connects capacitor C 2 after 31 pin of single-chip microcomputer N1 are connected, ground connection after the other end of capacitor C 2 is connected with the other end of capacitor C 3,15 pin of thermal printing device socket XS1 connect 30 pin of single-chip microcomputer N1,9 pin of thermal printing device socket XS1 connect 36 pin of single-chip microcomputer N1,10 pin of thermal printing device socket XS1 connect 35 pin of single-chip microcomputer N1,11 pin of thermal printing device socket XS1 connect 34 pin of single-chip microcomputer N1, and 12 pin of thermal printing device socket XS1 connect 33 pin of single-chip microcomputer N1.

9. such as claim 7 or a kind of image transfer device be used to tatooing claimed in claim 8, it is characterized in that, 1 pin of the scanner socket XS8 of described scan control circuit connects the negative pole of diode V13, one end of the positive pole of diode V12 and resistance R 666, ground connection after 2 pin of scanner socket XS8 are connected with the positive pole of diode V13, the end of the 3 pin connecting resistance R86 of scanner socket XS8, one end of resistance R 67 and an end of capacitor C 99, another termination of resistance R 86+5V voltage, another termination of resistance R 67+3.3V voltage, 4 pin of scanner socket XS8 are connected with 101 pin of single-chip microcomputer N1 by resistance R 68,5 pin of scanner socket XS8 are by resistance R 70 and 98 pin that meet single-chip microcomputer N1 after an end of capacitor C 97 is connected, the end of the 7 pin contact resistance R71 of scanner socket XS8 and an end of capacitor C 98, another termination of resistance R 71+24V voltage, 6 pin of scanner socket XS8 with connect triode V14 colelctor electrode after the other end of capacitor C 98 is connected, the end of triode V14 base stage contact resistance R72, the other end of resistance R 72 is connected with 110 pin of single-chip microcomputer N1, triode V14 emitter stage connects 6 pin of scanner socket XS8, ground connection after the other end of capacitor C 97 is connected with the other end of capacitor C 99.

10. such as claim 7 or a kind of image transfer device be used to tatooing claimed in claim 8, it is characterized in that, 125 pin that described system dominant frequency clock sends circuit and single-chip microcomputer N1 with are connected pin and are connected; 59 pin of real-time clock circuit for generating and single-chip microcomputer N1 with are connected pin and are connected; Electric voltage observation circuit is connected with 62 pin, 131 pin of single-chip microcomputer N1 and the pin of being connected; 49 pin of sensor detection circuit and single-chip microcomputer N1 with are connected pin and are connected; The stepper motor control circuit adopts motor driver, and motor driver is connected with 106 pin, 105 pin, 104 pin of single-chip microcomputer N1 and the pin of being connected; Keyboard control circuit is connected with 47 pin, 46 pin, 44 pin, 52 pin of single-chip microcomputer N1 and the pin of being connected; 75 pin of liquid crystal display control circuit and single-chip microcomputer N1 with are connected pin and are connected; The buzzer control circuit is connected with 119 pin of single-chip microcomputer N1; Serial ports turns USB mouth control circuit and adopts serial ports to turn USB mouth chip, 92 pin that serial ports turns USB mouth chip and single-chip microcomputer N1 with are connected pin and are connected.

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