CN110667261A

CN110667261A - Optical disk printing device and printer

Info

Publication number: CN110667261A
Application number: CN201911022899.6A
Authority: CN
Inventors: 赵贞香; 覃强; 丁仕全
Original assignee: Beijing Wanpan Technology Co Ltd
Current assignee: Beijing Wanpan Technology Co Ltd
Priority date: 2019-10-25
Filing date: 2019-10-25
Publication date: 2020-01-10
Anticipated expiration: 2039-10-25
Also published as: CN110667261B

Abstract

The invention discloses a CD printing device and a printer, wherein the CD printing device comprises a paper feeding transmission mechanism, a printing transmission mechanism and a CD carrying mechanism arranged on the printer; the optical disk carrying mechanism is provided with a driving mechanism; the power input end of the paper feeding transmission mechanism is used for being connected with a paper feeding power source of the printer, and the power output end of the paper feeding transmission mechanism is connected with the driving mechanism; the power input end of the printing transmission mechanism is used for being connected with a printing power source of the printer, and the power output end of the printing transmission mechanism is connected with the driving mechanism. By applying the technical scheme of the invention, the support to different types of printers is realized, and the compatibility of the optical disc printing device to various types of printers is effectively improved; and the structure is simple and the operation is easy.

Description

Optical disk printing device and printer

Technical Field

The invention relates to the field of machinery and the field of printing technology, in particular to an optical disk printing device and a printer.

Background

At present, the information storage technology mainly includes optical storage and magnetic storage, and the optical storage is mainly stored by means of optical disc recording. Optical disc storage technology is widely used due to its advantages of large capacity, low cost, safety and reliability, and non-tamper-able and permanently-storable features, especially for important data storage and backup. When an optical disc is used to store data, main information of the optical disc is usually printed on the surface of the optical disc in the form of pictures, characters, bar codes and two-dimensional codes by using a printer, and thus, in order to meet the increasingly efficient automation requirement, a fully automatic optical disc printing technology is also rapidly developed.

In the existing optical disc printing device for the full-automatic optical disc recording and printing system, if the surface of an optical disc is to be printed, special printer control software needs to be customized; meanwhile, the printer control software only supports the use of a designated printer and cannot be compatible with other types of printers; and the mechanism is complicated, the precision is low, and the stability is poor.

In order to solve the above problems of the prior art, no effective solution has been proposed.

Disclosure of Invention

The embodiment of the invention provides an optical disc printing device and a printer, which at least improve the compatibility of the conventional optical disc printing device to various types of printers.

In order to solve the technical problem, the optical disc printing device provided by the invention comprises a paper feeding transmission mechanism, a printing transmission mechanism and an optical disc carrying mechanism arranged on a printer; the optical disk carrying mechanism is provided with a driving mechanism; the power input end of the paper feeding transmission mechanism is used for being connected with a paper feeding power source of the printer, and the power output end of the paper feeding transmission mechanism is connected with the driving mechanism; the power input end of the printing transmission mechanism is used for being connected with a printing power source of the printer, and the power output end of the printing transmission mechanism is connected with the driving mechanism.

Optionally, the paper feeding transmission mechanism includes a paper feeding power source connection part, a first gear transmission part, and a paper feeding clutch; one end of the paper feeding power source connecting part is used for being connected with a paper feeding power source of the printer, and one end of the first gear transmission part is connected with the driving mechanism; the paper feeding clutch is connected with the other end of the paper feeding power source connecting part and the other end of the first gear transmission part.

Optionally, the paper feeding power source connecting component includes a paper feeding driving shaft and a first paper feeding gear disposed on the paper feeding driving shaft; the first gear transmission part comprises a second paper feeding gear and a third paper feeding transmission wheel which form a gear set; the paper feeding clutch is connected with the first paper feeding driving wheel through a synchronous belt, and the paper feeding clutch is coaxially connected with the second paper feeding driving wheel.

Optionally, the printing transmission mechanism comprises a printing power source connecting part, a second gear transmission part and a printing clutch; one end of the printing power source connecting part is used for being connected with a printing power source of the printer, and one end of the second gear transmission part is connected with the driving mechanism; the printing clutch is connected with the other end of the printing power source connecting part and the other end of the second gear transmission part.

Optionally, the printing power source connecting part is mainly composed of a second printing rotating shaft; the second gear transmission component comprises a first printing transmission wheel, a second printing transmission wheel and a backspacing transmission mechanism which form a transmission wheel group; the printing clutch is arranged on the second printing rotating shaft, and the second printing driving wheel and the printing clutch are coaxially arranged; the first printing transmission wheel is connected with the backspacing transmission mechanism.

Optionally, the retraction transmission mechanism includes a first retraction transmission wheel and a second retraction transmission wheel connected by a synchronous belt; the driving mechanism comprises a first printing rotating shaft, a backspacing rotating shaft, a first disk tray driving wheel arranged at one end of the first printing rotating shaft and a second disk tray driving wheel arranged at one end of the backspacing rotating shaft; the third paper feeding driving wheel is arranged at the other end of the first printing rotating shaft; the first return transmission wheel and the second tray driving wheel are coaxially arranged, and the second return transmission wheel is arranged at the other end of the printing rotating shaft.

Optionally, the optical disc printing apparatus further comprises a retraction mechanism; and the power output end of the backspacing mechanism is connected with the first backspacing driving wheel.

Optionally, the retraction mechanism comprises a motor and a retraction clutch; the backspacing clutch and the first backspacing driving wheel are coaxially arranged, and the power output end of the motor is connected with the backspacing clutch.

Optionally, the optical disc loading mechanism includes a tray base and an optical disc fixing mechanism, and an adjustable connection mechanism is disposed between the tray base and the optical disc fixing mechanism.

The invention also provides a printer comprising the optical disc printing device.

By applying the technical scheme of the invention, the power input end of the paper feeding transmission mechanism is used for being connected with a paper feeding power source of a printer, the power output end of the paper feeding transmission mechanism is connected with a driving mechanism of the optical disc supporting mechanism, the power input end of the printing transmission mechanism is connected with a printing power source of the printer, and the power output end of the printing transmission mechanism is connected with the driving mechanism, so that customized optical disc printing is realized by adjusting the printing range of the printer, the control of the printer is not required to be modified, the automatic control system of the printer is directly used for controlling, the support of different types of printers is further realized, and the compatibility of the optical disc printing device to various types of printers is effectively improved; and the structure is simple and the operation is easy.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an optical disc printing apparatus according to the present invention;

FIG. 2 is a schematic view of the driving structure of the optical disc printing apparatus according to the present invention;

FIG. 3 is a schematic diagram of a disc loading structure of the disc printing apparatus according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and specific embodiments, it being understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention.

In the following description, suffixes such as "structure", "module", "part", or "unit" used to denote elements are used only for the convenience of description of the present invention, and have no specific meaning in themselves. Thus, "module", "component" or "unit" may be used mixedly.

As shown in fig. 1 to 3, the present invention provides an optical disc printing apparatus, which includes a paper feeding transmission mechanism, a printing transmission mechanism, and an optical disc carrying mechanism for being disposed on a printer;

the optical disk carrying mechanism is provided with a driving mechanism; the power input end of the paper feeding transmission mechanism is used for being connected with a paper feeding power source of the printer, and the power output end of the paper feeding transmission mechanism is connected with the driving mechanism; the power input end of the printing transmission mechanism is used for being connected with a printing power source of the printer, and the power output end of the printing transmission mechanism is connected with the driving mechanism.

The optical disc printing apparatus can also be described as an optical disc cover or optical disc surface printing apparatus. The printer may be a general purpose inkjet printer and may include a printer base 1, a tube guide 2, a waste ink collector 3, an ink supply 4, an ink cartridge guide 6, a printer gear box 7, and an ink cartridge 8. The drive mechanism can drive the optical disk tray mechanism 5 to reciprocate back and forth along the tray guide 26 direction. The printer paper feed gear may constitute a paper feed power source for the printer and the printer print gear may constitute a power source for the printer.

The optical disc carrying mechanism 5 comprises a tray base 44 and an optical disc fixing mechanism, and an adjustable connecting mechanism is arranged between the tray base 44 and the optical disc fixing mechanism. The optical disc fixing mechanism can be composed of an optical disc tray 37, a chuck pin 38, a tension spring 40, a tension spring screw 41, a chuck pin limiting block 42, a top column 43 and the like; the adjustable connection mechanism may be an adjustable foot 39.

The paper feeding transmission mechanism can be composed of a paper feeding transmission gear and a rotating shaft, and the printing transmission gear can be composed of a printing transmission gear and a rotating shaft.

The paper feeding gear of the printer is a power source, and the main shaft of the tray is driven to rotate by the paper feeding transmission device and drives the tray to move, so that paper feeding is completed. The power input end of the printing transmission device is connected with a printing gear of the printer, the power output end of the printing transmission device is connected with the disc tray main shaft, the printing gear of the printer is a power source, the disc tray main shaft is driven to rotate through the printing transmission device, the disc tray is driven to move, and printing is completed.

The power input end of the paper feeding transmission mechanism is connected with a paper feeding power source of the printer, and the power output end of the paper feeding transmission mechanism is connected with the driving mechanism of the optical disc carrying mechanism, so that the driving mechanism is driven by the paper feeding transmission mechanism to drive the optical disc carrying mechanism 5 to move, and simulated paper feeding is completed; the power input end of the printing transmission mechanism is connected with a printing power source of the printer, the power output end of the printing transmission mechanism is connected with the driving mechanism, the driving mechanism is driven by the printing transmission mechanism to drive the optical disk carrying mechanism 5 to move, and printing is completed, so that customized optical disk printing is realized by adjusting the printing range of the printer, the control of the printer is not required to be modified, the automatic control system of the printer is directly used for controlling, further, the support of different types of printers is realized, and the compatibility of the optical disk printing device to various types of printers is effectively improved; and the structure is simple and the operation is easy.

The paper feeding transmission mechanism may include a paper feeding power source connecting part, a first gear transmission part 11, and a paper feeding clutch 12. One end of the paper feeding power source connecting part is used for being connected with a paper feeding power source of the printer, and one end of the first gear transmission part 11 is connected with the driving mechanism. The paper feeding driving shaft 9 and the first paper feeding gear 11 disposed on the paper feeding driving shaft may constitute a paper feeding power source connection part, and the second paper feeding gear 13 and the third paper feeding transmission wheel 14 constitute a first gear transmission part.

The printing transmission mechanism comprises a printing power source connecting part, a second gear transmission part and a printing clutch 25; one end of the printing power source connecting part is used for being connected with a printing power source of the printer, and one end of the second gear transmission part is connected with the driving mechanism; the printing clutch 25 connects the other end of the printing power source connecting part and the other end of the second gear transmission part. Alternatively, the printing power source connection member may be mainly constituted by the second printing spindle 32, the first and second printing pulleys 22 and 23 and the retraction transmission mechanism may constitute a second gear transmission member, and the first and second retraction pulleys 18 and 20 may constitute a retraction transmission mechanism.

Wherein the driving mechanism comprises a first printing rotating shaft 33, a retraction rotating shaft 34, a first tray driving wheel 15 arranged at one end of the first printing rotating shaft 33, and a second tray driving wheel 16 arranged at one end of the retraction rotating shaft 34. The third paper feeding driving wheel is arranged at the other end of the first printing rotating shaft; the first retraction driving wheel 18 is coaxially arranged with the first tray driving wheel, and the second retraction driving wheel is arranged at the other end of the printing rotating shaft.

The optical disk printing device also comprises a return mechanism; and the power output end of the backspacing mechanism is connected with the first backspacing driving wheel. The backspacing mechanism comprises a motor and a backspacing clutch; the backspacing clutch and the first backspacing driving wheel are coaxially arranged, and the power output end of the motor is connected with the backspacing clutch.

In detail, the optical disc tray loading mechanism 5 is mounted on the tray guide 26 and can move back and forth along the tray guide 26. The ink box guide 6, the printer gear box 7 and the ink box 8 are connected in an original mode for components of the ink-jet printer, the printer gear box 7 is fixedly installed at one end of the ink box guide 6, and the ink box 8 is hung on the ink box guide 6 and can move left and right along the ink box guide 6.

The first paper feeding driving wheel 11 is fixedly arranged on the paper feeding driving shaft 9, and the paper feeding driving shaft 9 is fixedly arranged on the first bearing fixing seat 35 and the second bearing fixing seat 36 by using buckles; the paper feeding clutch 12 is connected with the first paper feeding driving wheel 11 by using a synchronous belt, and the paper feeding clutch 12 is connected with the second paper feeding driving wheel 13 by using a rotating shaft and is fixed on the first bearing fixing seat 35; the third paper feeding driving wheel 14, the first tray support driving wheel 15, the second return rotating wheel 20 and the printing driving wheel 22 are mounted on a first printing rotating shaft 32, the first printing rotating shaft 32 penetrates through the tray support guide 26 and the first bearing fixing seat 35 and is fixed, wherein the third paper feeding driving wheel 14 and the second paper feeding driving wheel 13 form a gear set, the second return rotating wheel 20 is connected with the first return driving wheel 18 through a synchronous belt, and the first printing driving wheel 22 is connected with the second printing driving wheel 23 through a synchronous belt. The second printing transmission wheel 23, the printing clutch 25, the printer paper feeding gear 28 and the second case transmission wheel 31 are arranged on a first printing rotating shaft 33, the first printing rotating shaft 33 penetrates through the tray guide piece 26 and the first bearing fixing seat 35 and is fixed, wherein the second printing transmission wheel 23 is connected with the first printing transmission wheel 22 through a synchronous belt, the printer paper feeding gear 28 is connected with the printer paper feeding motor 29, and the second case transmission wheel 31 is connected with the first case transmission wheel 30 through the synchronous belt. The second tray driving wheel 16, the first retraction driving wheel 18 and the retraction clutch 19 are installed on a retraction rotation shaft 34, and the retraction rotation shaft 34 passes through the tray guide 26 and is fixed, wherein the first retraction driving wheel 18 is connected to the second retraction driving wheel 20 using a timing belt. The other end of the backspacing clutch 19 is connected with a backspacing motor 21, and the backspacing motor 21 is fixed on the printer base 1 by using screws. The positive limit 17 is fixedly arranged at the foremost end of the paper feeding direction of the printer by using a mounting frame and screws; the negative limit 27 is fixedly arranged at the rearmost end of the paper feeding direction of the printer by using a mounting frame and screws; the printer feed motor 29 drives the printer gearbox 7 via a first chassis drive wheel 30 and a second chassis drive wheel 31. When printing, the optical disc supporting mechanism 5 is positioned at the negative limit 27, the printer gear box 7 drives the paper feeding clutch 12 through the paper feeding driving shaft 9 and the first paper feeding driving wheel 11, the paper feeding clutch 12 is closed and drives the first disc supporting driving wheel 15 to drive through the second paper feeding driving wheel 13 and the third paper feeding driving wheel 14, and the paper feeding action of the optical disc supporting mechanism 5 is realized by rotating the first disc supporting driving wheel 15; after the paper feeding is completed, the paper feeding clutch 12 is released, the printing clutch 25 is closed, the printer paper feeding motor 29 drives the first tray driving wheel 15 and the second tray driving wheel 20 to rotate through the first printing transmission wheel 22 and the second printing transmission wheel 23, and the second tray driving wheel 16 is driven to rotate through the first tray driving wheel 18 by the second tray driving wheel 20. The optical disk carrying mechanism 5 is driven by the first tray driving wheel 15 and the second tray driving wheel 16 to complete paper feeding and printing, and the optical disk carrying mechanism 5 is used for replacing paper of an original ink-jet printer. Therefore, printer software is not customized, and the ink jet printer can be compatible with various models. After printing is finished, the paper feed clutch 12 is released, the return clutch 19 is closed, and the optical disc carrying mechanism 5 is driven by the return motor 21 to return to the negative limit 27, so that the optical disc carrying mechanism 5 can be reused.

Alternatively, the optical disc loading mechanism 5 has a double-layer structure, the upper layer optical disc tray 37 is fixed on the tray base 44 by using the adjustable supporting leg 39, and the height and level of the optical disc tray 37 are adjusted by adjusting the adjustable supporting leg 39, so that the optimal printing effect can be conveniently adjusted. When the optical disc loading mechanism 5 is at the original position, the movable end of the chuck pin 38 is opened by the top column 43 and releases the optical disc; when the printing operation is executed, the optical disk carrying mechanism 5 is pushed forward, the chuck pin leaves the thimble, and the optical disk is automatically returned and locked under the action of the tension spring.

Optionally, a component of the optical disc tray loading mechanism 5, namely, the optical disc tray 37, is a rectangular stainless steel sheet metal part, the middle of the optical disc tray loading mechanism is a first circular groove, the size of the first circular groove is slightly larger than that of a 5-inch optical disc, two protruding limiting bosses and a strip-shaped notch are arranged on the edge of the first circular groove, and the limiting bosses and the notch are distributed at a certain angle; in addition, a second circular groove is arranged in the center of the first circular groove, and the size of the second circular groove is slightly larger than that of the 3-inch optical disc; in the center of the second circular groove, there is a circular gap, which is slightly larger than the size of the central gap of the optical disc.

As an example, among them, a printer using a Canon iP2780 full color ink jet printer; the printer base 1 uses an ABS mould forming part, the ink tube guide groove 2 uses a stainless steel sheet metal part, the waste ink collector 3 uses a transparent pet plastic bottle, the ink continuous supply device 4 uses a Canon iP2780 universal continuous supply ink bottle, the optical disk carrying mechanism 5 is an optical disk carrying device independently developed by our company, the ink box guide part 6, the printer gear box 7, the ink box 8, the paper feed sensor 27 and the printer paper feed motor 29 are Canon iP2780 original parts, the paper feed driving shaft 9, the gear box driving shaft 10, the first printing rotating shaft 33, the first printing rotating shaft 32 and the backing rotating shaft 34 are rotating shafts made of stainless steel materials, the first paper feed driving wheel 11 uses a 2 GT-26-tooth aluminum alloy synchronous wheel, the paper feed clutch 12, the backing clutch 19 and the printing clutch 25 use DAIKEN 12-24V electromagnetic clutches, the second paper feed driving wheel 13 and the third paper feed driving wheel 14 both use 0.5M-30-tooth brass gears, the first tray driving wheel 15 and the second tray driving wheel 16 both use brass gears with modulus of 0.8, number of teeth 24 and pitch circle diameter of 19.42 and addendum circle diameter of 21, the positive limit 17 and the negative limit 27 use small-sized photoelectric sensors with model of PM-L25, the first backward driving wheel 18, the second backward driving wheel 20 and the first printing driving wheel 22 use 2GT-32 tooth aluminum alloy synchronous wheels, the backward motor 21 is ZGB37RG-24V miniature DC speed reduction motor, the second printing driving wheel 23, the first chassis driving wheel 30 and the second chassis driving wheel 31 all use 2GT-16 tooth aluminum alloy synchronous wheels, the tray guide 26 uses stainless steel guide rail with model of silver-coated MGN9C, the printer paper feeding gear 28 uses 2GT-32 tooth aluminum alloy synchronous wheels, the first bearing fixing seat 35 and the second bearing fixing seat 36 are cuboid stainless steel blocks, the optical disk tray 37, the optical disk tray fixing seat, Chuck pin 38 and tray base 44 are the stainless steel sheet metal machined part, and adjustable stabilizer blade 39 comprises a spring and stainless steel screw, and extension spring 40 is 0.3 x 3's stainless steel extension spring, and extension spring screw 41 is the stainless steel screw, and chuck pin stopper 42 is a stainless steel cuboid sheet metal component, and chuck pin fore-set 43 is a length 2cm, and the radius 2.5 mm's stainless steel cylinder, and one end uses M3 tapping to be used for fixing.

The operation of the optical disc printing apparatus according to the present invention is briefly described as follows.

A printer base 1 in the optical disc printing apparatus for mounting and fixing the components of the apparatus; an ink tube guide groove 2 for guiding and connecting an ink supply tube; a waste ink collector 3 for storing printing waste ink; the ink continuous supply device 4 is used for storing continuous supply ink; an optical disk carrying mechanism 5 for fixing an optical disk to be printed; an ink cartridge guide 6 for guiding the printer ink cartridge; a printer gear box 7 for synchronizing the self action of the ink-jet printer; a paper feed driving shaft 9 for connecting a paper feed gear of the printer gear box 7; a gear box drive shaft 10 for driving the printer gear box 7; the first paper feeding driving wheel 11 is used for driving the paper feeding clutch 12 to rotate; a paper feed clutch 12 for controlling and separating the paper feed transmission; the second paper feeding driving wheel 13 is used for synchronously rotating the third paper feeding driving wheel 14; a third paper feeding transmission wheel 14 for synchronizing the rotation of the first tray driving wheel 15; a first tray driving wheel 15 for driving the tray carrying mechanism 5 to feed paper; a second tray driving wheel 16 for driving the optical tray carrying mechanism 5 to feed paper; a positive limit 17 for limiting the positive limit position of the optical disc carrying mechanism 5 and triggering disc ejection; a first backward driving wheel 18 for synchronizing the rotation of the second backward rotating wheel 20; a back-off clutch 19 for controlling and disengaging the back-off transmission; a second backward rotation wheel 20 for synchronizing the rotation of the first backward transmission wheel 18; a retraction motor 21 for driving the retraction device to complete the retraction operation of the disk loading mechanism 5; a first print driving wheel 22 for synchronizing the rotation of a second print driving wheel 23; a second print driving wheel 23 for synchronizing the rotation of the first print driving wheel 22; a paper feed sensor 24 for the printer to sense a paper feed state; a print clutch 25 for controlling and disengaging the print actuator; a tray guide 26 for guiding the forward and backward movement of the disk tray mechanism 5; a negative limit 27 for limiting a negative limit position of the disc holding mechanism 5 and stopping disc ejection; a printer paper feed gear 28 for synchronizing rotation of a printer paper feed motor 29; the printer paper feed motor 29 is a motor equipped in the original equipment of the inkjet printer, and is used for driving the printer gear box 7 and printing paper feed; a first chassis drive wheel 30 for synchronizing a second chassis drive wheel 31; a second chassis drive wheel 31 for synchronizing the first chassis drive wheel 30; the first printing rotating shaft 33 is used for connecting and fixing the second printing driving wheel 23, the printing clutch 25, the printer paper feeding gear 28 and the second machine box driving wheel 31; a first printing rotating shaft 32 for connecting and fixing the third paper feeding driving wheel 14, the first tray driving wheel 15, the second returning rotating wheel 20 and the first printing driving wheel 22; a reverse rotation shaft 34 for connecting and fixing the second tray driving wheel 16, the first reverse transmission wheel 18 and the reverse clutch 19; a first bearing fixing seat 35 for mounting and fixing the paper feed driving shaft 9, the gear box driving shaft 10, the first printing rotating shaft 33 and the first printing rotating shaft 32; a second bearing fixing base 36 for mounting and fixing the paper feed driving shaft 9, the gear box driving shaft 10, the first printing rotation shaft 33 and the first printing rotation shaft 32; a disc tray 37 for holding a disc to be printed; a chuck pin 38 for locking the optical disk; an adjustable leg 39 for adjusting the height and level of the disc tray 37; a tension spring 40 for pulling the chuck pin 38. A tension spring screw 41 for fixing the tension spring 40; a chuck pin stopper 42 for restricting the position of the chuck pin 38; a chuck pin ejecting column 43 for pushing the chuck pin 38 in the reverse direction to release the optical disk; and a disc tray base 44 for mounting and fixing the components of the disc tray mechanism 5.

The device is installed on a full-automatic optical disc recording and printing system by using screws, power-on initialization is carried out, the optical disc carrying mechanism 5 automatically moves to the negative limit 27 after initialization, and then the position for taking and placing the optical disc is calibrated. When printing is started, the printer paper feed motor 29 drives the printer gear box 7 to rotate through the first case driving wheel 30 and the second case driving wheel 31. The printer gear box 7 drives a paper feeding clutch 12 through a paper feeding driving shaft 9 and a first paper feeding driving wheel 11, the paper feeding clutch 12 is closed, a first tray driving wheel 15 is driven to rotate through a second paper feeding driving wheel 13 and a third paper feeding driving wheel 14, and the paper feeding action of the optical disc supporting mechanism 5 is realized by rotating the first tray driving wheel 15; after the paper feeding is completed, the paper feeding clutch 12 is released, the printing clutch 25 is closed, the printer paper feeding motor 29 drives the first tray driving wheel 15 and the second tray driving wheel 20 to rotate through the first printing transmission wheel 22 and the second printing transmission wheel 23, and the second tray driving wheel 16 is driven to rotate through the first tray driving wheel 18 by the second tray driving wheel 20. The optical disk carrying mechanism 5 is driven by the first tray driving wheel 15 and the second tray driving wheel 16 to finish paper feeding and printing, and the optical disk carrying mechanism 5 is used for replacing paper of an original ink-jet printer, so that printer software does not need to be customized, and the optical disk carrying mechanism is compatible with various ink-jet printers. After printing is finished and the trigger positive limit 17 is effective, the paper feed clutch 12 is released, the return clutch 19 is closed, and the return motor 21 starts to rotate. The optical disc carrying mechanism 5 retreats to the negative limit 27 by the driving of the retreat motor 21, and printing is completed. After printing, the full-automatic optical disc recording and printing system controls the optical disc mechanical arm to take out the printed optical disc, store the optical disc in the finished bin, and then put the unprinted optical disc into the optical disc printing device again to execute the next printing.

The invention also provides a printer, in particular to a full-automatic compact disc recording and printing machine, which comprises the above arbitrary compact disc printing device.

The invention realizes customized optical disk printing by adjusting the printing range of the printer. By using the paper feeding transmission device and the printing transmission device, the paper feeding power source and the printing power source of the printer are obtained to drive the tray to simulate paper feeding action and printing action, the whole system ensures the invariance of the original control logic of the printer, and the support to the printers of different models is realized. The optical disk printing device uses the optical disk carrying device with a double-layer structure, the upper layer disk tray is fixed on the lower layer base by using the adjustable supporting legs, the lower layer base is connected with the printer paper feeding device, the adjustment of the level and the height of the disk surface is realized by adjusting the adjustable supporting legs, the structure is simple, the operation is easy, and the printing quality is effectively improved.

While the present invention has been described with reference to the embodiments illustrated in the drawings, the present invention is not limited to the embodiments, which are illustrative rather than restrictive, and it will be apparent to those skilled in the art that many more modifications and variations can be made without departing from the spirit of the invention and the scope of the appended claims.

Claims

1. An optical disc printing device is characterized by comprising a paper feeding transmission mechanism, a printing transmission mechanism and an optical disc carrying mechanism arranged on a printer;

the optical disk carrying mechanism is provided with a driving mechanism;

the power input end of the paper feeding transmission mechanism is used for being connected with a paper feeding power source of the printer, and the power output end of the paper feeding transmission mechanism is connected with the driving mechanism; the power input end of the printing transmission mechanism is used for being connected with a printing power source of the printer, and the power output end of the printing transmission mechanism is connected with the driving mechanism.

2. The optical disc printing apparatus according to claim 1, wherein the paper feeding transmission mechanism includes a paper feeding power source connecting part, a first gear transmission part, and a paper feeding clutch;

one end of the paper feeding power source connecting part is used for being connected with a paper feeding power source of the printer, and one end of the first gear transmission part is connected with the driving mechanism; the paper feeding clutch is connected with the other end of the paper feeding power source connecting part and the other end of the first gear transmission part.

3. The optical disc printing apparatus according to claim 2, wherein the paper feeding power source connecting part includes a paper feeding driving shaft and a first paper feeding gear provided on the paper feeding driving shaft;

the first gear transmission part comprises a second paper feeding gear and a third paper feeding transmission wheel which form a gear set;

the paper feeding clutch is connected with the first paper feeding driving wheel through a synchronous belt, and the paper feeding clutch is coaxially connected with the second paper feeding driving wheel.

4. An optical disc printing apparatus according to claim 1, wherein the printing transmission mechanism includes a printing power source connection part, a second gear transmission part, and a printing clutch;

one end of the printing power source connecting part is used for being connected with a printing power source of the printer, and one end of the second gear transmission part is connected with the driving mechanism; the printing clutch is connected with the other end of the printing power source connecting part and the other end of the second gear transmission part.

5. An optical disc printing apparatus according to claim 4, wherein the printing power source connecting part is mainly constituted by the second printing rotary shaft;

the second gear transmission component comprises a first printing transmission wheel, a second printing transmission wheel and a backspacing transmission mechanism which form a transmission wheel group;

the printing clutch is arranged on the second printing rotating shaft, and the second printing driving wheel and the printing clutch are coaxially arranged; the first printing transmission wheel is connected with the backspacing transmission mechanism.

6. An optical disc printing apparatus according to claims 3 and 5, wherein the retraction driving mechanism includes a first retraction driving wheel and a second retraction driving wheel connected by a timing belt;

the driving mechanism comprises a first printing rotating shaft, a backspacing rotating shaft, a first disk tray driving wheel arranged at one end of the first printing rotating shaft and a second disk tray driving wheel arranged at one end of the backspacing rotating shaft;

the third paper feeding driving wheel is arranged at the other end of the first printing rotating shaft; the first return transmission wheel and the second tray driving wheel are coaxially arranged, and the second return transmission wheel is arranged at the other end of the printing rotating shaft.

7. An optical disc printing apparatus according to claim 6, further comprising a retraction mechanism; and the power output end of the backspacing mechanism is connected with the first backspacing driving wheel.

8. An optical disc printing apparatus as claimed in claim 7, wherein the retraction mechanism includes a motor and a retraction clutch; the backspacing clutch and the first backspacing driving wheel are coaxially arranged, and the power output end of the motor is connected with the backspacing clutch.

9. An optical disc printing apparatus according to any one of claims 1 to 5, wherein the optical disc tray loading mechanism comprises a tray base and an optical disc fixing mechanism, and an adjustable connection mechanism is provided between the tray base and the optical disc fixing mechanism.

10. A printer, characterized in that it comprises an optical disc printing apparatus according to any one of claims 1 to 9.