CN107521243B - Double-sided vertical synchronous spray painting printing mechanism and printing method - Google Patents

Abstract

The invention discloses a double-sided vertical synchronous spray painting printing mechanism and a printing method, wherein the double-sided vertical synchronous spray painting printing mechanism comprises a horizontal guide rail mechanism, an A-sided vertical printing component, a B-sided vertical printing component and a carriage plate driving system, wherein the A-sided vertical printing component and the B-sided vertical printing component are respectively provided with a waste ink recovery box and a spray head assembly, the waste ink recovery boxes and the spray head assemblies of the two printing components are arranged in a staggered manner, the A-sided waste ink recovery boxes and the A-sided spray head assemblies are driven by a driving device to move towards the B-sided spray head assemblies and the B-sided waste ink recovery boxes, so that the waste ink recovery boxes and the spray head assemblies which are opposite in position are contacted, then the spray head is cleaned, and cleaning liquid directly enters the opposite waste ink recovery boxes after passing through the spray head, so that the problem of inconvenient cleaning of the spray head in vertical printing for a long time is solved.

Description

Double-sided vertical synchronous spray painting printing mechanism and printing method

Technical Field

The invention relates to the field of printers, in particular to a double-sided inkjet printer, and specifically relates to a double-sided vertical synchronous inkjet printing mechanism and a printing method.

Background

The existing double-sided printing printer mainly utilizes a material rolling mechanism to change the travelling path of a printed material so as to achieve the effect of double-sided printing, when the printer finishes one-sided printing work of paper or fabric (the printed material), the paper or fabric is sent to a double-sided printing unit again, the unit component turns over the paper or fabric once, and then the paper or fabric is sent back to a feeding channel to finish the second-sided printing work of the paper or fabric. The disadvantages are: the printed material has long travelling route in the printer, the travelling route is complex, the synchronous printing is not performed, and the printing time is long; is easy to run and is blocked. The corresponding precision after the double-sided printing is not high.

Naturally, it is also conceivable to erect the printing unit and to use two sets of printing units respectively disposed on two sides of the printed material to implement double-sided printing, for example, chinese patent publication No.: CN106945410a discloses a double-sided printer with the name of vertical printing mode, comprising a bracket, wherein a cloth feeding mechanism, a printing mechanism and a cloth collecting mechanism are arranged on the bracket, and the printing mechanism comprises a first printing component and a second printing component; the first printing component is used for printing on the first surface of the fabric and comprises a first nozzle used for discharging ink and a first nozzle motion servo system used for controlling the first nozzle to move; the second printing component is used for printing on the second surface of the fabric and comprises a second nozzle used for discharging ink and a second nozzle motion servo system for controlling the movement of the second nozzle; the ink outlet direction of the first spray head and the ink outlet direction of the second spray head are positioned on the same horizontal plane, and the structure changes the traditional printing mode, but the structure only erects two groups of printing assemblies, and can realize vertical printing, but after the printing is finished, the problem of waste ink treatment after the spray head is cleaned can not be solved, and the conditions of unclear printing and blockage of the spray head can occur as soon as the time is long; this is why printers on the market have never had this structure, which is not practical.

Disclosure of Invention

The invention aims to solve the problem that waste ink cannot be processed when a spray head of a vertical printing mechanism is cleaned in the prior art.

In order to achieve the above object, the technical scheme of the present invention is as follows:

a double-sided vertical synchronous inkjet printing mechanism, comprising:

the horizontal guide rail mechanism is convenient for the A, B vertical carriage plate to move along the horizontal direction;

the A-plane vertical printing assembly is used for printing on a first plane and comprises an A-plane vertical carriage plate arranged on the horizontal guide rail mechanism, and an A-plane waste ink recovery box and an A-plane spray head assembly which synchronously move along with the A-plane vertical carriage plate are arranged in the A-plane vertical carriage plate; the waste ink recovery box on the surface A and the spray head assembly on the surface A can synchronously move back and forth towards the vertical printing component on the surface B; the device also comprises a driving device for driving the waste ink recovery box on the A side and the spray head assembly on the A side to synchronously move towards the vertical printing component on the B side; a reset device is arranged between the waste ink recovery box on the A surface and the spray head assembly on the A surface and the vertical carriage plate on the A surface;

the B-side vertical printing assembly is used for printing on a second side and comprises a B-side waste ink recovery box and a B-side vertical carriage plate, and a B-side spray head assembly which moves synchronously with the B-side vertical carriage plate is arranged in the B-side vertical carriage plate; the B-side waste ink recovery box is positioned outside the B-side vertical carriage plate and fixedly arranged outside the spray painting area; when the B-side vertical type carriage plate moves to the side-by-side position of the B-side waste ink recovery boxes, the B-side spray head assembly of the B-side vertical type printing assembly, the B-side waste ink recovery boxes, the A-side spray head assembly of the A-side vertical type printing assembly and the A-side waste ink recovery boxes are arranged in a staggered mode;

and the character plate driving system drives the A, B vertical character plate to move along the horizontal guide rail mechanism.

In the preferred scheme of the invention, the waste ink recovery box on the surface A and the spray head assembly on the surface A are arranged in the same frame, the frame is arranged in the vertical carriage plate on the surface A, and folded plates which are turned outwards are arranged on two side edges of the frame.

Further, the driving device comprises an eccentric roller and a motor, the motor is connected with the eccentric roller, and the eccentric roller is correspondingly arranged with the frame; the rotation of the eccentric roller drives the frame, the waste ink recovery box on the surface A and the spray head assembly on the surface A in the frame to synchronously move towards the vertical printing component on the surface B.

Further, the elastic resetting device is arranged between the frame and the A-plane vertical carriage plate.

Still further, the return means is a spring.

In a preferred embodiment of the present invention, the A, B side spray head assemblies each comprise a spray head mounting plate and an integrated spray head.

In the preferred scheme of the invention, the waste ink recovery box on the A surface and the spray head assembly on the A surface are arranged in the vertical type carriage plate on the A surface side by side along the moving direction of the vertical type carriage plate on the A surface.

In the preferred scheme of the invention, the waste ink recovery box on the A side and the bottom surface of the spray head assembly on the A side are on the same plane; the waste ink recovery box on the side B and the bottom surface of the spray head assembly on the side B are on the same plane.

In a preferred embodiment of the invention, the carriage plate driving system is a servo driving system.

In a preferred embodiment of the invention, the carriage plate drive system is a magnetic levitation drive system.

In the preferable scheme of the invention, the side of the A, B side waste ink recovery box facing the opposite spray head is provided with the diversion screen plate for diversion of hanging ink generated by vertical ink jet into the waste ink recovery box.

The invention also discloses a double-sided vertical synchronous spray painting printing method, which comprises the following steps:

controlling the A-side vertical type carriage plate and the B-side vertical type carriage plate to move along the horizontal guide rail mechanism by a driving system to print, and completing printing by spray-painting of a spray head;

after printing, controlling the B-side vertical type carriage plate to move to the side-by-side position of the B-side waste ink recovery box through a driving system, and controlling the A-side vertical type carriage plate to move to the opposite side of the B-side vertical type carriage plate and the B-side waste ink recovery box through a servo driving system;

driving the A-side waste ink recovery box and the A-side spray head assembly to synchronously move towards the B-side vertical printing assembly through the driving device until the screen plate of the A-side waste ink recovery box contacts with the B-side spray head assembly in the B-side vertical carriage plate, and the screen plate of the B-side waste ink recovery box contacts with the A-side spray head assembly in the A-side vertical carriage plate;

and fourthly, performing spray head cleaning, spraying cleaning liquid into the waste ink recovery box, and vertically spraying ink to generate hanging ink and guiding the hanging ink into the waste ink recovery box along a guide screen plate of the waste ink recovery box.

According to the invention, the two printing components are vertically arranged, the waste ink recovery boxes and the spray head assemblies of the two printing components are arranged in a staggered manner, and the drive device drives the waste ink recovery boxes on the A side and the spray head assemblies on the A side to move towards the spray head assemblies on the B side and the waste ink recovery boxes on the B side, so that the waste ink recovery boxes with opposite positions are contacted with the spray head assemblies, and then the spray head is cleaned, thereby solving the problem of inconvenient spray head cleaning in vertical printing for a long time.

The features of the present invention will be apparent from the following detailed description of the preferred embodiments, taken in conjunction with the accompanying drawings.

Drawings

Fig. 1 is a schematic diagram of a double-sided vertical type synchronous inkjet printing mechanism (omitting a waste ink recovery cartridge and a head assembly) in embodiment 1.

Fig. 2 is a rear view of fig. 1.

Fig. 3 is a schematic structural view of an a-side vertical printing assembly (omitting an a-side head assembly).

Fig. 4 is a top view of fig. 3.

Fig. 5 is a schematic perspective view of an a-side vertical printing assembly (omitting the a-side head assembly).

FIG. 6 is a schematic illustration of a B-side vertical printing assembly (omitting the B-side nozzle assembly).

Fig. 7 is a schematic diagram of a misalignment arrangement of an a-side vertical printing assembly and a B-side vertical printing assembly.

Fig. 8 is a schematic diagram of a side-a vertical printing assembly and a side-B vertical printing assembly in a staggered arrangement.

Fig. 9 is a schematic diagram showing a state when the vertical carriage plate on the a side and the vertical carriage plate on the B side move synchronously.

Fig. 10 is a schematic diagram showing the positional relationship between the head assembly and the waste ink recovery box in embodiment 2.

Wherein, 100-beam; 111-guide rails; 112-a slider; 200-A surface vertical printing component; 210-A surface vertical carriage plate; 220-frame; 221-folded plate; 230-A side waste ink recovery box; 240-driving means; 241-eccentric roller; 243-a compression spring; 251-A side shower nozzle mounting plate; a 300-B side vertical printing assembly; a 310-B side waste ink recovery box; 320-B surface vertical type carriage plate; 331-B face spray head mounting plate.

Detailed Description

In order that the manner in which the invention is attained, as well as the features and advantages thereof, will be readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof.

Example 1

Referring to fig. 1, 2 and 3, the invention discloses a double-sided vertical synchronous inkjet printing mechanism, which mainly comprises a cross beam 100, a horizontal guide rail mechanism, an a-side vertical printing assembly 200, a B-side vertical printing assembly 300 and a driving system. The A-side vertical printing assembly 200 and the B-side vertical printing assembly 300 define a printing section therebetween.

The cross beam 100 is horizontally arranged and plays a role of bearing.

The horizontal guide rail mechanism is fixed on one surface of the cross beam so that the A, B vertical carriage plate can move along the horizontal direction. The horizontal guide rail mechanism comprises a guide rail 111 fixed on the side surface of the cross beam, and a sliding block 112 respectively connected with the A-plane vertical printing component and the B-plane vertical printing component.

Referring to fig. 3, 4, 5, a-side vertical printing assembly 200 is for first-side printing and includes a-side vertical carriage plate 210, a frame 220, a-side waste ink recovery cartridge 230, a-side nozzle assembly, and drive means 240. The sliding block of the horizontal guide rail mechanism is welded on the A-plane vertical carriage plate, and the A-plane vertical carriage plate moves along the horizontal guide rail mechanism through the sliding block.

The frame 220 is disposed within the a-side vertical carriage plate 210, and the frame 220 is movable along the a-side vertical carriage plate 210 toward the B-side vertical printing assembly. The a-side spray head assembly (not shown) includes an a-side spray head mounting plate 251 and an integrated spray head (not shown). The a-side waste ink recovery box 230 and the a-side nozzle assembly are fixedly mounted within the frame 220 and are arranged side by side (i.e., laterally) along the a-side vertical carriage plate movement direction. The adoption of the structure can realize the following steps: the a-side waste ink recovery box 230 and the a-side nozzle assembly move in the direction of the guide rail 111 in synchronization with the a-side vertical carriage plate 210. Meanwhile, the a-side waste ink recovery box 230 and the a-side head assembly may move along the inner wall of the a-side vertical carriage plate 210 along with the frame 220 toward the B-side vertical printing assembly.

The driving device has the main functions that: the waste ink recovery box on the A side and the spray head assembly on the A side are driven to synchronously move towards the vertical printing component on the B side. In this embodiment, the waste ink recovery box 230 of the a-side and the a-side nozzle assembly are fixedly installed in the frame 220, and in order to facilitate the driving connection with the driving device, folding plates 221 are provided at both side edges of the frame 220 to be turned outwards. The structure of the driving device comprises an eccentric roller 241 and a motor, wherein the motor is connected with the eccentric roller 241, and the eccentric roller 241 is correspondingly arranged with a folded plate 221 of the frame; the eccentric roller 241 is driven to rotate by the motor, so that the frame 220, the waste ink recovery box 230 on the A surface in the frame and the spray head assembly on the A surface are driven to synchronously move towards the B surface vertical printing component.

In order to facilitate the restoration of the frame 220, an elastic restoration device (of course, other restoration devices may also be adopted) is disposed between the folded plate 221 of the frame and the front surface plate of the a-plane vertical carriage plate, and specifically, the elastic restoration device adopts a compression spring 243.

The one side of A face waste ink recovery box towards opposite shower nozzle is provided with the import that corresponds to the shower nozzle region, and the import department is provided with the screen cloth, and the screen cloth neither can block ink from the import entering, and can absorb the string ink that produces to the shower nozzle export of perpendicular inkjet through shower nozzle and screen cloth contact to inside the waste ink recovery box flows into along with the screen cloth. The mesh cloth of the waste ink recovery box on the surface A and the bottom surface of the spray head mounting plate on the surface A are on the same plane.

Referring to fig. 6, the B-side vertical printing assembly 300 is used for second-side printing, and comprises a B-side waste ink recycling box 310 and a B-side vertical carriage plate 320, wherein a B-side nozzle assembly which moves synchronously with the B-side vertical carriage plate is arranged in the B-side vertical carriage plate 320; the B-side waste ink recovery box 310 is located outside the B-side vertical carriage plate 320, and is fixedly arranged outside the spray painting area (i.e. the carriage position); in this embodiment, the B-side waste ink recovery box is fixed in the left character garage. The bottom of the B-side vertical carriage plate 320 is in a hollow structure. The B-side showerhead assembly (not shown) also includes a B-side showerhead mounting plate 331 and an integrated showerhead (not shown). The B-side waste ink recovery box 310 and the B-side vertical carriage plate 320 are located at the same height.

The face of the waste ink recovery box of the face B is provided with an inlet corresponding to the area of the spray head, the inlet is provided with mesh cloth, the mesh cloth can not block ink from entering from the inlet, and hanging ink generated at the outlet of the spray head for vertical ink spraying can be absorbed through contact of the spray head and the mesh cloth, and flows into the waste ink recovery box along with the mesh cloth. The mesh cloth of the waste ink recovery box on the side B and the bottom surface of the spray head mounting plate on the side B are on the same plane.

Referring to fig. 7, 8 and 9, when the B-side vertical carriage plate 320 moves to the side-by-side position (in the left carriage garage in this embodiment) of the B-side waste ink recovery box 310, and the a-side vertical carriage plate also enters the left carriage garage, the B-side head assembly (in the figure, the position of the B-side vertical carriage plate 320 can be seen), the B-side waste ink recovery box 310 and the a-side head assembly (in the figure, the position of the a-side head mounting plate 251 can be seen) of the a-side vertical printing assembly, and the a-side waste ink recovery box 230 are arranged in a staggered manner.

The driving system (not shown) is used for driving the A, B vertical carriage plate to move along the horizontal guide rail mechanism. In this embodiment, the drive system employs a servo drive system. Of course, other configurations of the drive system, such as a magnetic levitation drive system, may be used.

The synchronous spray painting printing method of the double-sided vertical synchronous spray painting printing mechanism comprises the following steps:

step one, controlling the A-side vertical carriage plate 210 and the B-side vertical carriage plate 320 to move along a horizontal guide rail mechanism through a driving system; and (5) spray painting by a spray head to finish printing.

After printing, controlling the B-side vertical type carriage plate 320 to move to the side-by-side position of the B-side waste ink recovery boxes 310 through a driving system, and controlling the A-side vertical type carriage plate (with the A-side waste ink recovery boxes 230 and the A-side nozzle assemblies in the B-side vertical type carriage plate) to move to the opposite side of the B-side waste ink recovery boxes through a servo driving system; at this time, the nozzle assembly and the waste ink recovery box on the A face are formed, and are arranged in a staggered manner with the nozzle assembly and the waste ink recovery box on the B face.

Driving the A-side waste ink recovery box and the A-side spray head assembly to synchronously move towards the B-side vertical printing component through the eccentric roller 241 until the screen plate of the A-side waste ink recovery box contacts with the B-side spray head assembly in the B-side vertical carriage plate, and the screen plate of the B-side waste ink recovery box contacts with the A-side spray head assembly in the A-side vertical carriage plate;

and fourthly, performing a spray head cleaning operation, wherein ink enters the waste ink recovery box through an inlet of the waste ink recovery box, and after the cleaning operation is finished, hanging ink generated by vertical ink spraying is absorbed by the mesh cloth and flows into the waste ink recovery box.

Example 2

Referring to fig. 10, a dual-sided vertical synchronous inkjet printing mechanism mainly includes a cross beam, a horizontal guide rail mechanism, an a-sided vertical printing assembly, a B-sided vertical printing assembly, and a driving system. A face vertical printing component and a face B vertical printing component are mutually defined to form a printing interval.

The differences from example 1 are: the spray head assembly and the waste ink recovery box are changed from horizontal arrangement side by side to vertical arrangement side by side.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A double-sided vertical synchronous inkjet printing mechanism, comprising:

the horizontal guide rail mechanism is convenient for the A, B vertical carriage plate to move along the horizontal direction;

the A-plane vertical printing assembly is used for printing on a first plane and comprises an A-plane vertical carriage plate arranged on the horizontal guide rail mechanism, and an A-plane waste ink recovery box and an A-plane spray head assembly which synchronously move along with the A-plane vertical carriage plate are arranged in the A-plane vertical carriage plate; the waste ink recovery box on the surface A and the spray head assembly on the surface A can synchronously move back and forth towards the vertical printing component on the surface B; the device also comprises a driving device for driving the waste ink recovery box on the A side and the spray head assembly on the A side to synchronously move towards the vertical printing component on the B side; a reset device is arranged between the waste ink recovery box on the A surface and the spray head assembly on the A surface and the vertical carriage plate on the A surface; the waste ink recovery box and the spray head assembly of the surface A are arranged in the vertical type carriage plate of the surface A side by side along the moving direction of the vertical type carriage plate of the surface A;

the B-side vertical printing assembly is used for printing on a second side and comprises a B-side waste ink recovery box and a B-side vertical carriage plate, and a B-side spray head assembly which moves synchronously with the B-side vertical carriage plate is arranged in the B-side vertical carriage plate; the B-side waste ink recovery box is positioned outside the B-side vertical carriage plate and fixedly arranged outside the spray painting area; when the B-side vertical type carriage plate moves to the side-by-side position of the B-side waste ink recovery boxes, the B-side spray head assembly of the B-side vertical type printing assembly, the B-side waste ink recovery boxes, the A-side spray head assembly of the A-side vertical type printing assembly and the A-side waste ink recovery boxes are arranged in a staggered mode;

the character plate driving system drives the A, B vertical character plate to move along the horizontal guide rail mechanism; the A-side spray head assembly and the B-side spray head assembly comprise spray head mounting plates and integrated spray heads.

2. The double-sided vertical synchronous inkjet printing mechanism according to claim 1, wherein the waste ink recovery box on the surface a and the nozzle assembly on the surface a are arranged in the same frame, the frame is arranged in a vertical carriage plate on the surface a, and folded plates which are turned outwards are arranged on two side edges of the frame.

3. The double-sided vertical synchronous inkjet printing mechanism according to claim 2, wherein the driving device comprises an eccentric roller and a motor, the motor is connected with the eccentric roller, and the eccentric roller is arranged corresponding to the frame; the rotation of the eccentric roller drives the frame, the waste ink recovery box on the surface A and the spray head assembly on the surface A in the frame to synchronously move towards the vertical printing component on the surface B.

4. The dual sided upright synchronous inkjet printing mechanism according to claim 3 wherein the reset device is an elastic reset device disposed between the frame and the a-side upright carriage plate.

5. The dual sided upright synchronous inkjet printing mechanism according to claim 1 wherein the bottom surfaces of the a-side waste ink recovery cartridge and the a-side nozzle assembly are on the same plane; the waste ink recovery box on the side B and the bottom surface of the spray head assembly on the side B are on the same plane.

6. The dual sided upright synchronous inkjet printing mechanism according to claim 1 wherein the carriage plate drive system is a servo drive system.

7. The dual sided upright synchronous inkjet printing mechanism according to claim 1 wherein the carriage plate drive system is a magnetic levitation drive system.

8. The dual-sided vertical type synchronous inkjet printing mechanism according to claim 1, wherein a side of the A, B side waste ink recovery box facing the opposite nozzle is provided with a diversion screen plate for diversion of hanging ink generated by vertical inkjet into the waste ink recovery box.

9. A printing method using the double-sided vertical synchronous inkjet printing mechanism according to any of claims 1 to 8, characterized by comprising:

controlling the A-side vertical type carriage plate and the B-side vertical type carriage plate to move along the horizontal guide rail mechanism by a driving system to print, and completing printing by spray-painting of a spray head;

after printing, controlling the B-side vertical type carriage plate to move to the side-by-side position of the B-side waste ink recovery box through a driving system, and controlling the A-side vertical type carriage plate to move to the opposite side of the B-side vertical type carriage plate and the B-side waste ink recovery box through a servo driving system;

driving the A-side waste ink recovery box and the A-side spray head assembly to synchronously move towards the B-side vertical printing assembly through the driving device until the screen plate of the A-side waste ink recovery box contacts with the B-side spray head assembly in the B-side vertical carriage plate, and the screen plate of the B-side waste ink recovery box contacts with the A-side spray head assembly in the A-side vertical carriage plate;

and fourthly, performing spray head cleaning, spraying cleaning liquid into the waste ink recovery box, and vertically spraying ink to generate hanging ink and guiding the hanging ink into the waste ink recovery box along a guide screen plate of the waste ink recovery box.

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