CN111806065A - Semi-automatic double-table-board printing machine - Google Patents

Abstract

The invention discloses a semi-automatic double-table-board printing machine, which comprises a machine base, wherein a first ink pad, a second ink pad, a platform movement mechanism, a printing device and a controller are arranged on the machine base, the first ink pad and the second ink pad are arranged on the machine base in a staggered manner, the platform movement mechanism is arranged on the machine base and is used for driving the first ink pad and the second ink pad to alternately run on the machine base from left to right, the printing device comprises a stand column, a printing mechanism and a lifting mechanism, the controller comprises a distribution box and an operation panel, the first ink pad is conveyed to the printing device for printing a sheet material to be printed, meanwhile, the second ink pad moves away from the printing device, an operator can take the sheet material from the second ink pad and place the sheet material, when the sheet material on one ink pad is printed by the printing device, the other ink pad can simultaneously carry out the operation of taking and placing the sheet material, when the plate is taken and placed and the printing device prints repeatedly, waiting is not needed, and the production efficiency is effectively improved.

Description

Semi-automatic double-table-board printing machine

Technical Field

The invention relates to the technical field of printing machines, in particular to a semi-automatic double-table-board printing machine.

Background

In the semi-automatic screen printing FPC/PCB technology, a single-table-board printing machine is mainly used at present and comprises a machine table, a printing air suction platform, a printing lifting mechanism, a printing device and the like, wherein in the production of semi-automatic printing boards, the plates need to be manually placed on the printing air suction platform, after the printing is finished by the printing device, the plates are manually taken down from the printing air suction platform, the operation is repeated, the existing single-table-board printing machine can continue to take and place the plates only after the printing of the printing device is finished by waiting for the completion of the printing device, the next printing can be continued only after the same plates need to be taken and placed after the printing of the printing device is finished, in the production process, the waiting is needed when the plates are taken and placed and printed repeatedly, the waste time is more, and the production.

Disclosure of Invention

The present invention aims to overcome the above-mentioned shortcomings and provide a technical solution to solve the above-mentioned problems.

The utility model provides a semi-automatic double table face printing machine, includes the frame, wherein, is equipped with on the frame:

the first ink pad and the second ink pad are arranged on the machine base in a staggered manner;

the platform movement mechanism is arranged on the base and is used for driving the first ink pad and the second ink pad to alternately run left and right on the base;

the printing device comprises a stand column arranged on the base, a printing mechanism arranged on the stand column, and a lifting mechanism arranged on the stand column and used for driving the printing mechanism to lift;

and the controller comprises a distribution box arranged in the base and an operation panel arranged on the base.

As a further scheme of the invention: the platform movement mechanism comprises a mounting frame, a first motor screw rod assembly used for driving a first ink pad to move is installed in the mounting frame, a second motor screw rod assembly used for driving a second ink pad to move is installed in the mounting frame, a first slider is movably connected to a screw rod of the first motor screw rod assembly, a first sliding rail is correspondingly arranged on the mounting frame, the first slider is connected with the first ink pad, a second slider is movably connected to a screw rod of the second motor screw rod assembly, a second sliding rail is correspondingly arranged on the mounting frame, and the second slider is connected with the second ink pad.

As a further scheme of the invention: the first ink pad comprises a first adjusting seat arranged on the first sliding block and a first vacuum sucker arranged on the first adjusting seat, and the first adjusting seat is used for driving the first vacuum sucker to move along the X-axis and Y-axis directions to adjust the relative position.

As a further scheme of the invention: the first adjusting seat is provided with a first adjusting knob used for adjusting the first vacuum sucker to move on the first adjusting seat along the X-axis direction, and the front end of the first adjusting seat is provided with a second adjusting knob used for adjusting the first vacuum sucker to move on the first adjusting seat along the Y-axis direction.

As a further scheme of the invention: the second ink pad comprises a second adjusting seat arranged on the second sliding block and a second vacuum sucker arranged on the second adjusting seat, and the second adjusting seat is used for driving the second vacuum sucker to move along the X-axis and Y-axis directions to adjust the relative position.

As a further scheme of the invention: the left side of the second adjusting seat is provided with a third adjusting knob used for adjusting the second vacuum chuck to move on the second adjusting seat along the X-axis direction, and the front end of the second adjusting seat is provided with a fourth adjusting knob used for adjusting the second vacuum chuck to move on the second adjusting seat along the Y-axis direction.

As a further scheme of the invention: the lifting mechanism comprises a third motor screw rod assembly arranged on the stand column, a third sliding block is movably connected to a screw rod of the third motor screw rod assembly, and a third sliding rail is correspondingly arranged on the stand column.

As a further scheme of the invention: the printing mechanism comprises a lifting seat arranged on the third sliding block, a screen plate assembly arranged at the front end of the lifting seat, an X-axis moving seat movably arranged on the lifting seat, a motor belt assembly arranged on the lifting seat and used for driving the X-axis moving seat to move along the X-axis direction, a printing scraping head assembly arranged on the X-axis moving seat and positioned above the screen plate assembly, and a scraping head driving mechanism arranged on the X-axis moving seat and used for driving the printing scraping head assembly to lift; the screen plate assembly comprises a pair of screen arms arranged at the front end of the lifting seat, clamping jaws and adjusting frames are arranged on the screen arms, and the adjusting frames are used for adjusting the positions of the clamping jaws on the screen arms up and down; the printing scraping head driving mechanism comprises a lifting guide frame movably arranged on the X-axis moving seat and a lifting cylinder which is arranged on the X-axis moving seat and is used for driving the lifting guide frame to lift on the X-axis moving seat, and the printing scraping head assembly is arranged on the lifting guide frame; the printing is scraped first printing of first subassembly including the slope installation and is scraped the head, the second printing of slope installation is scraped the head, install on X axle removes the seat and be used for adjusting first printing from top to bottom and scrape the first fine setting screw rod of head and install on X axle removes the seat and be used for adjusting second printing from top to bottom and scrape the second fine setting screw rod of head, this first printing is scraped the head, the inclination that the head was scraped in the second printing is inequality.

As a further scheme of the invention: the first motor screw rod assembly, the second motor screw rod assembly, the third motor screw rod assembly and the motor belt assembly are all servo motors.

Compared with the prior art, the invention has the beneficial effects that: the first motor screw rod assembly enables the first printing platform to move left and right on the base through the first sliding block, the second motor screw rod assembly enables the second printing platform to move left and right on the base through the second sliding block, the first printing platform and the second printing platform are arranged in a staggered mode, the plate to be printed on the first printing platform is conveyed to the printing device to be printed under the first printing platform, meanwhile, the second printing platform moves far away from the printing device, an operator can take down the plate from the second printing platform and place the plate, when the plate on one printing platform is printed by the printing device, the other printing platform can conduct plate taking and placing operation at the same time, when the plate and the printing device print repeatedly, waiting is not needed, and production efficiency is effectively improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of the present invention.

FIG. 2 is another schematic diagram of the present invention.

FIG. 3 is a schematic view of a first ink pad structure according to the present invention.

FIG. 4 is a schematic view of a second ink pad of the present invention.

Fig. 5 is a schematic structural view of a platform moving mechanism according to the present invention.

Fig. 6 is a schematic structural view of the lifting mechanism of the present invention.

Fig. 7 is a schematic view of the printing head assembly of the present invention.

Figure 8 is a schematic view of the jaw configuration of the present invention.

In the figure: a machine base-1, a first ink pad-2, a first adjusting seat-21, a first vacuum suction cup-22, a first adjusting knob-23, a second adjusting knob-24, a second ink pad-3, a second adjusting seat-31, a second vacuum suction cup-32, a third adjusting knob-33, a fourth adjusting knob-34, a platform moving mechanism-4, a mounting frame-41, a first motor screw rod component-42, a first slide block-43, a first slide rail-44, a second motor screw rod component-45, a second slide block-46, a second slide rail-47, a stand column-5, a printing mechanism-6, a lifting seat-61, a screen plate component-62, a screen arm-621, a clamping jaw-622, an adjusting frame-623 and an X-axis moving seat-63, the printing and scraping device comprises a printing and scraping head assembly-64, a first printing and scraping head-641, a second printing and scraping head-642, a first fine adjustment screw-643, a second fine adjustment screw-644, a scraping head driving mechanism-65, a lifting guide frame-651, a lifting cylinder-652, a screen plate-66, a motor belt assembly-67, a lifting mechanism-7, a third motor screw rod assembly-71, a third sliding block-72, a third sliding rail-73, a controller-8, a distribution box-81 and an operation panel-82.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, in an embodiment of the present invention, a semi-automatic dual-deck printing machine includes a machine base 1, wherein the machine base 1 is provided with a first ink pad 2, a second ink pad 3, a platform moving mechanism 4, a printing device and a controller 8, the first ink pad 2 and the second ink pad 3 are arranged on the machine base 1 in a staggered manner, the platform moving mechanism 4 is installed on the machine base 1 and is used for driving the first ink pad 2 and the second ink pad 3 to run on the machine base 1 in a left-right alternating manner, the printing device includes an upright post 5 installed on the machine base 1, a printing mechanism 6 installed on the upright post 5, and a lifting mechanism 7 installed on the upright post 5 and used for driving the printing mechanism 6 to lift, and the controller 8 includes a distribution box 81 installed in the machine base 1 and an operation panel 82 installed on the machine base 1.

Referring to fig. 1-2 and 5-8, in particular, the first ink pad 2 is located below the second ink pad 3, the platform moving mechanism 4 includes an installation frame 41, a first motor screw assembly 42 for driving the first ink pad 2 to move is installed in the installation frame 41, a second motor screw assembly 45 for driving the second ink pad 3 to move is installed in the installation frame 41, a first slider 43 is movably connected to a screw of the first motor screw assembly 42, a first slide rail 44 is correspondingly arranged on the installation frame 41, the first slider 43 is connected to the first ink pad 2, the first motor screw assembly 42 drives the first slider 43 to slide on the first slide rail 44, so as to drive the first ink pad 2 to move, a second slider 46 is movably connected to a screw of the second motor screw assembly 45, a second slide rail 47 is correspondingly arranged on the installation frame 41, the second slider 46 is connected to the second ink pad 3, the second motor screw assembly 45 drives the second slide block 46 to slide on the second slide rail 47, so as to drive the second ink pad 3 to move. The lifting mechanism 7 comprises a third motor screw rod assembly 71 arranged on the upright post 5, a third sliding block is movably connected to a screw rod of the third motor screw rod assembly 71, a third sliding rail is correspondingly arranged on the upright post, and the third motor screw rod assembly 71 drives the third sliding block 72 to slide on the third sliding rail 73, so that the printing mechanism 6 is driven to move up and down. The printing mechanism 6 comprises a lifting seat 61 arranged on a third slide block 72, a screen plate assembly 62 arranged at the front end of the lifting seat 61, an X-axis moving seat 63 movably arranged on the lifting seat 62, a motor belt assembly 67 arranged on the lifting seat 61 and used for driving the X-axis moving seat 63 to move along the X-axis direction, a printing scraping head assembly 64 arranged on the X-axis moving seat 63 and positioned above the screen plate assembly 62, and a scraping head driving mechanism 65 arranged on the X-axis moving seat 63 and used for driving the printing scraping head assembly 64 to lift, wherein the screen plate assembly 62 comprises a pair of screen arms 621 arranged at the front end of the lifting seat 61, clamping jaws 622 and adjusting frames 623 are arranged on the screen arms 621, the adjusting frames 623 are used for adjusting the positions of the clamping jaws 622 on the screen arms 621 up and down, the scraping head driving mechanism 65 comprises a lifting guide frame 651 movably arranged on the X-axis moving seat 63 and a lifting cylinder arranged on the X-axis moving seat 63 and used for driving the lifting guide frame 651 to lift on the X-axis 652, the printing squeegee head assembly 64 is mounted on the elevating guide frame 651, the printing squeegee head assembly 64 includes a first printing squeegee head 641 mounted obliquely, a second printing squeegee head 642 mounted obliquely, a first fine adjustment screw 643 mounted on the X-axis moving base 63 and adapted to adjust the first printing squeegee head 641 up and down, and a second fine adjustment screw 644 mounted on the X-axis moving base 63 and adapted to adjust the second printing squeegee head 642 up and down, and the inclination angles of the first printing squeegee head 641 and the second printing squeegee head 642 are different. The first motor screw rod assembly 42 enables the first printing platform 3 to move left and right on the machine base 1 through the first sliding block 43, the second motor screw rod assembly 45 enables the second printing platform 3 to move left and right on the machine base 1 through the second sliding block 46, the first printing platform 2 and the second printing platform 3 are arranged in a staggered mode, the first printing platform 2 conveys a plate material to be printed to the printing device for printing, namely to the right side, meanwhile, the second printing platform 3 moves to a position far away from the printing device, namely to the left side, an operator can take the plate material from the second printing platform 3 and place the plate material, when the plate material on one printing platform is printed by the printing device, the other printing platform can take and place the plate material at the same time, when the plate material is taken and printed by the printing device repeatedly, waiting is not needed, and the production efficiency is effectively improved.

Referring to fig. 3 to 4, further, the first ink pad 2 includes a first adjusting seat 21 installed on the first sliding block 43, and a first vacuum chuck 22 installed on the first adjusting seat 21, the first adjusting seat 21 is used for driving the first vacuum chuck 22 to move along the X-axis and Y-axis directions to adjust the relative position, the second ink pad 3 includes a second adjusting seat 31 installed on the second sliding block 46, and a second vacuum chuck 32 installed on the second adjusting seat 31, and the second adjusting seat 31 is used for driving the second vacuum chuck 32 to move along the X-axis and Y-axis directions to adjust the relative position. Specifically, a first adjusting knob 23 for adjusting the first vacuum chuck 22 to move on the first adjusting seat 21 along the X-axis direction is disposed on the left side of the first adjusting seat 21, a second adjusting knob 24 for adjusting the first vacuum chuck 22 to move on the first adjusting seat 21 along the Y-axis direction is disposed at the front end of the first adjusting seat 21, a third adjusting knob 33 for adjusting the second vacuum chuck 32 to move on the second adjusting seat 31 along the X-axis direction is disposed on the left side of the second adjusting seat 31, and a fourth adjusting knob 34 for adjusting the second vacuum chuck 32 to move on the second adjusting seat 31 along the Y-axis direction is disposed at the front end of the second adjusting seat 31. The first vacuum chuck 22 and the second vacuum chuck 32 are used for conveniently adsorbing the plate material on the printing platform, and the first adjusting seat 21 and the second adjusting seat 31 can adjust the positions of the first vacuum chuck 22 and the second vacuum chuck 32, so that the first vacuum chuck 22 and the second vacuum chuck can be better matched with a printing device when being moved to the position under the printing device, and the printing quality is effectively improved.

Preferably, the first motor screw assembly 42, the second motor screw assembly 45, the third motor screw assembly 71 and the motor belt assembly 67 all adopt servo motors, and the servo motors are used as driving sources to enable the lifting mechanism 7, the platform movement mechanism 4 and the printing mechanism 6 to have better stability in the control process.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (10)

1. The utility model provides a semi-automatic double table face printing machine, includes the frame, its characterized in that is equipped with on the frame:

the first ink pad and the second ink pad are arranged on the machine base in a staggered manner;

the platform movement mechanism is arranged on the base and is used for driving the first ink pad and the second ink pad to alternately run left and right on the base;

the printing device comprises a stand column arranged on the base, a printing mechanism arranged on the stand column, and a lifting mechanism arranged on the stand column and used for driving the printing mechanism to lift;

and the controller comprises a distribution box arranged in the base and an operation panel arranged on the base.

2. The semi-automatic double-table-board printing machine is characterized in that the platform moving mechanism comprises a mounting frame, a first motor screw rod assembly used for driving a first ink-bearing table to move is installed in the mounting frame, a second motor screw rod assembly used for driving a second ink-bearing table to move is installed in the mounting frame, a first sliding block is movably connected to a screw rod of the first motor screw rod assembly, a first sliding rail is correspondingly arranged on the mounting frame, the first sliding block is connected with the first ink-bearing table, a second sliding block is movably connected to a screw rod of the second motor screw rod assembly, a second sliding rail is correspondingly arranged on the mounting frame, and the second sliding block is connected with the second ink-bearing table.

3. A semi-automatic double-deck printing press as claimed in claim 2, wherein the first pad includes a first adjustment seat mounted on the first slide block, and a first vacuum chuck mounted on the first adjustment seat, the first adjustment seat being adapted to drive the first vacuum chuck to move in the X-axis and Y-axis directions to adjust the relative position.

4. A semi-automatic double-deck printing machine as claimed in claim 3, wherein a first adjusting knob for adjusting the first vacuum chuck to move on the first adjusting seat along the X-axis direction is provided on the left side of the first adjusting seat, and a second adjusting knob for adjusting the first vacuum chuck to move on the first adjusting seat along the Y-axis direction is provided on the front end of the first adjusting seat.

5. A semi-automatic double-deck printing press as claimed in claim 2, wherein the second pad includes a second adjustment seat mounted on the second slide block, and a second vacuum chuck mounted on the second adjustment seat, the second adjustment seat being adapted to drive the second vacuum chuck to move in the X-axis and Y-axis directions to adjust the relative position.

6. A semi-automatic double-table printer according to claim 5, wherein a third adjusting knob for adjusting the second vacuum chuck to move on the second adjusting seat along the X-axis direction is arranged on the left side of the second adjusting seat, and a fourth adjusting knob for adjusting the second vacuum chuck to move on the second adjusting seat along the Y-axis direction is arranged on the front end of the second adjusting seat.

7. The semi-automatic double-table printer according to claim 1, wherein the elevating mechanism comprises a third motor screw assembly mounted on the column, a third slide block is movably connected to a screw of the third motor screw assembly, and a third slide rail is correspondingly arranged on the column.

8. A semi-automatic dual-deck printing press as recited in claim 7,

the printing mechanism comprises a lifting seat arranged on the third sliding block, a screen plate assembly arranged at the front end of the lifting seat, an X-axis moving seat movably arranged on the lifting seat, a motor belt assembly arranged on the lifting seat and used for driving the X-axis moving seat to move along the X-axis direction, a printing scraping head assembly arranged on the X-axis moving seat and positioned above the screen plate assembly, and a scraping head driving mechanism arranged on the X-axis moving seat and used for driving the printing scraping head assembly to lift;

the screen plate assembly comprises a pair of screen arms arranged at the front end of the lifting seat, clamping jaws and adjusting frames are arranged on the screen arms, and the adjusting frames are used for adjusting the positions of the clamping jaws on the screen arms up and down;

the printing scraping head driving mechanism comprises a lifting guide frame movably arranged on the X-axis moving seat and a lifting cylinder which is arranged on the X-axis moving seat and is used for driving the lifting guide frame to lift on the X-axis moving seat, and the printing scraping head assembly is arranged on the lifting guide frame;

the printing is scraped first printing of first subassembly including the slope installation and is scraped the head, the second printing of slope installation is scraped the head, install on X axle removes the seat and be used for adjusting first printing from top to bottom and scrape the first fine setting screw rod of head and install on X axle removes the seat and be used for adjusting second printing from top to bottom and scrape the second fine setting screw rod of head, this first printing is scraped the head, the inclination that the head was scraped in the second printing is inequality.

9. A semi-automatic double-deck printing press as claimed in any one of claims 2 to 6 wherein the first motor screw assembly and the second motor screw assembly are both servo motors.

10. The semi-automatic double-deck printing press of claim 8, wherein the third motor screw assembly and the motor belt assembly are servo motors.

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