CN114407538A

CN114407538A - Intelligent printing machine based on big data

Info

Publication number: CN114407538A
Application number: CN202210147444.2A
Authority: CN
Inventors: 罗勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-02-17
Filing date: 2022-02-17
Publication date: 2022-04-29

Abstract

The invention discloses an intelligent printing machine based on big data, which comprises a printing mechanism, a machine body, a control panel and a lifting guide frame, wherein the printing mechanism is movably clamped with the front end of the lifting guide frame, the lifting guide frame is fixed at the rear end of the machine body, the front end of the machine body is connected with the control panel, the linkage plate on the printing mechanism descends along the lifting guide frame under the matching of the rear guide rail, thereby leading the linkage plate to generate downward pressure on the pressing strip, leading the pressing strip to generate pressing on the left and the right sides of the printing paper, leading the pressing strip to press and fix the two sides of the printing paper and to be paved, the telescopic frame can slide downwards along the sleeve by the downward pressure of the ink extruded into the ink head on the central rod, thereby make the expansion bracket can promote the depression bar and slide downwards and stretch out, so make the needle-like ink that solidifies inside the lower solid head that can push away and fall down of depression bar lower extreme.

Description

Intelligent printing machine based on big data

Technical Field

The invention relates to the technical field of printing machines, in particular to an intelligent printing machine based on big data.

Background

Based on intelligent printing machine of big data is used for carrying out the printing of characters or pattern to the paper, drive the ink jet gun through the crane and descend, rethread removes the frame and drives the ink jet gun and move forward, then can make the ink jet gun carry out the inkjet to the surface of printing paper and print, but in prior art, because the parchment paper that part is used for printing the engineering drawing is that the rolling is preserved, so that the parchment paper can appear spreading the unevenness when printing on the operation panel based on intelligent printing machine of big data, the circumstances that the avris was upwarped is rolled up all the time.

Disclosure of Invention

Aiming at the problems, the invention provides an intelligent printing machine based on big data.

In order to achieve the purpose, the invention is realized by the following technical scheme: an intelligent printing machine based on big data structurally comprises a printing mechanism, a machine body, a control panel and a lifting guide frame, wherein the printing mechanism is movably clamped with the front end of the lifting guide frame, the lifting guide frame is fixed at the rear end of the machine body, and the front end of the machine body is connected with the control panel; the machine body comprises an operation table, moving guide frames and a lower connecting table, wherein the operation table is fixed between the two moving guide frames, and the moving guide frames are arranged on the upper surface of the lower connecting table.

As a further improvement of the invention, the operating platform comprises two compression strips, a bearing plate, a lower fixture block and two elastic sheets, wherein the compression strips are movably clamped with the interior of the bearing plate, the lower fixture block is fixed at the bottom of the bearing plate, the elastic sheets are arranged between the bottom of the compression strips and the inner wall of the bearing plate, and the compression strips are uniformly and symmetrically distributed on the upper surface of the bearing plate.

As a further improvement of the invention, the compression bar comprises a contact block, an upper plate and a clamping block, the contact block is fixed at the lower end of the upper plate, the clamping block is connected with the bottom of the upper plate, and the contact block is made of natural rubber with strong elasticity.

As a further improvement of the invention, the printing mechanism comprises a linkage plate, a movable rod, an abutting brush, a rear guide rail and an ink-jet mechanism, wherein the linkage plate is connected with the bottom of the ink-jet mechanism, the movable rod is movably clamped with the front end of the linkage plate, the abutting brush is connected with the bottom of the movable rod, the ink-jet mechanism is movably clamped with the front end of the rear guide rail, and the movable rod can slide upwards along the linkage plate by the reverse thrust generated by printing paper on the abutting brush based on the surface of the mechanism.

As a further improvement of the invention, the abutting brush comprises a connecting strip, a pressing block and a vibrating block, the pressing block is fixed at the bottom of the connecting strip, the vibrating block is movably clamped with the inside of the connecting strip, and the pressing block is made of soft rubber.

As a further improvement of the present invention, the ink jet mechanism includes a pneumatic pump, an ink jet gun, and a connecting frame, the pneumatic pump is fixed at an upper end position of the ink jet gun, the connecting frame is connected with a rear end of the ink jet gun, and the connecting frame can be engaged with a front end of the rear guide rail to slide left and right.

As a further improvement of the invention, the ink-jet gun comprises an ink collecting box, a transition block and an ink outlet head, wherein the transition block is fixed at the bottom position of the ink collecting box, the ink outlet head is connected with the lower end of the transition block, and the transition block can communicate the ink collecting box and the ink outlet head together.

As a further improvement of the present invention, the ink outlet head includes a housing, a lower fixing head, a central rod, and a fixing frame, the lower fixing head is fixed at a central position of the bottom of the housing, the central rod is installed at an internal position of the housing, the fixing frame is embedded between the side of the central rod and the inner wall of the housing, and the ink entering the housing can be intensively guided into the housing by the lower fixing head and then ejected through the lower end of the lower fixing head.

As a further improvement of the invention, the central rod comprises an expansion bracket, a sleeve, a lower pressing rod and a reset strip, the expansion bracket is movably clamped with the interior of the sleeve, the lower pressing rod is fixed at the bottom of the expansion bracket, the reset strip is wound at the outer position of the lower pressing rod, the reset strip is positioned at the inner position of the sleeve, and the lower end of the lower pressing rod is provided with a needle-shaped structure.

The invention has the following beneficial effects:

1. through on the operation panel of paper on the organism will be printed, the oppression strip bottom on the operation panel is placed to the left and right sides of paper will be printed again, linkage plate on the rethread printing mechanism descends along the lift guide frame under the cooperation of rear guide rail, thereby make the linkage plate can produce decurrent pressure to the oppression strip, so make the oppression strip can produce the oppression to the left and right sides of printing paper, so make the oppression strip can press down fixedly to the both sides of printing the paper, and pave, and can make the oppression strip produce stronger grabbing power to the paper of printing through the contact piece, avoid the condition that the paper of printing moved, the unevenness can appear spreading when the operation panel is printed to effectual parchment paper of avoiding rolling save, the circumstances that the avris curled up all the time.

2. Can extrude the inside of going out the china ink head through the transition piece with the inside ink of album ink horn through the pneumatic pump, the inside ink of rethread extrusion play china ink head produces decurrent pressure to the central rod, can make the expansion bracket along the sleeve pipe lapse, thereby make the expansion bracket can promote down the depression bar lapse, so make down the needle-like of depression bar lower extreme can push down the inside ink that solidifies of solid head, thereby make the inside ink of solid head spout fast down, effectual the remaining fractional ink of solid head solidifies the export that can plug up solid head down under having avoided, lead to the condition that delay can appear in ink spun speed.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent printing machine based on big data according to the present invention.

Fig. 2 is an exploded view of the body of the present invention.

Fig. 3 is a schematic perspective view of the console of the present invention.

Fig. 4 is an exploded view of the console of the present invention.

Fig. 5 is a schematic bottom view of the compression bar of the present invention.

FIG. 6 is a schematic perspective view of a printing mechanism according to the present invention.

FIG. 7 is a schematic structural view of the movable rod of the present invention in a state of sliding upward along the linkage plate.

Fig. 8 is a schematic perspective view of an interference brush according to the present invention.

FIG. 9 is a schematic diagram of the moving track of the vibrating mass inside the connecting bar according to the present invention

FIG. 10 is a schematic perspective view of an ink-jet mechanism according to the present invention

FIG. 11 is an exploded view of an ink jet gun according to the present invention

FIG. 12 is a schematic view of a three-dimensional half-section structure of the ink outlet head of the present invention

FIG. 13 is a perspective view of the center pole of the present invention

FIG. 14 is a schematic view of a three-dimensional half-section structure of a center pole of the present invention

In the figure: printing mechanism-1, machine body-2, control panel-3, lifting guide frame-4, operation table-21, moving guide frame-22, lower table-23, pressing bar-a 1, bearing plate-a 2, lower fixture block-a 3, elastic sheet-a 4, contact block-a 11, upper plate-a 12, fixture block-a 13, linkage plate-b 1, movable rod-b 2, collision brush-b 3, rear guide rail-b 4, ink jet mechanism-b 5, connection bar-b 31, pressing block-b 32, vibrating block-b 4642, pneumatic pump-b 51, ink jet gun-b 9, connection frame-b 53, ink collecting box-c 1, transition block-c 2, ink outlet head-c 3, shell-c 31, lower fixing head-c 32, central rod-c 33, fixing frame-c 34, lower fixing frame-c 31, A telescopic frame-d 1, a sleeve-d 2, a lower pressure bar-d 3 and a reset bar-d 4.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

Example 1

As shown in fig. 1 to 9:

the invention provides an intelligent printing machine based on big data, which structurally comprises a printing mechanism 1, a machine body 2, a control panel 3 and a lifting guide frame 4, wherein the printing mechanism 1 is movably clamped with the front end of the lifting guide frame 4, the lifting guide frame 4 is fixed at the rear end of the machine body 2, and the front end of the machine body 2 is connected with the control panel 3; the machine body 2 comprises an operation table 21, moving guide frames 22 and a lower connection table 23, wherein the operation table 21 is fixed between the two moving guide frames 22, and the moving guide frames 22 are installed on the upper surface of the lower connection table 23.

The operating table 21 includes a pressing bar a1, a bearing plate a2, a lower fixture block a3 and an elastic sheet a4, the pressing bar a1 is movably clamped with the inside of the bearing plate a2, the lower fixture block a3 is fixed at the bottom of the bearing plate a2, the elastic sheet a4 is installed between the bottom of the pressing bar a1 and the inner wall of the bearing plate a2, two pressing bars a1 are arranged and are uniformly distributed on the upper surface of the bearing plate a2 in a symmetrical manner, and the left and right sides of the printing paper are placed below the two pressing bars a1, so that when the mechanism descends, the pressing bar a1 can be pressed, and thus the pressing bar a1 can press and fix the two sides of the printing paper and lay the two sides flat.

The pressing strip a1 comprises a contact block a11, an upper board a12 and a clamping block a13, the contact block a11 is fixed at the lower end of the upper board a12, the clamping block a13 is connected with the bottom of the upper board a12, the contact block a11 is made of natural rubber with high elasticity, and the contact block a11 is matched with a continuous concave surface at the bottom of the contact block a11 to generate stronger gripping force on printing paper, so that the situation that the printing paper moves is avoided.

The printing mechanism 1 comprises a linkage plate b1, a movable rod b2, a collision brush b3, a rear guide rail b4 and an ink jet mechanism b5, wherein the linkage plate b1 is connected with the bottom of the ink jet mechanism b5, the movable rod b2 is movably clamped with the front end of the linkage plate b1, the collision brush b3 is connected with the bottom of the movable rod b2, the ink jet mechanism b5 is movably clamped with the front end of the rear guide rail b4, and the movable rod b2 can slide upwards along the linkage plate b1 through the reverse thrust generated by the printing paper to the collision brush b3 on the basis of the mechanism surface, so that the force of the collision brush b3 directly pressing the printing paper can be buffered, and the printing paper with a thinner thickness is prevented from being crushed.

The collision brush b3 comprises a connecting bar b31, a pressing block b32 and a vibrating block b33, the pressing block b32 is fixed at the bottom of the connecting bar b31, the vibrating block b33 is movably clamped with the inside of the connecting bar b31, the pressing block b32 is made of soft rubber, so that the pressing block b32 does not damage printing paper when the surface of the printing paper slides, the vibrating block b33 can be bounced inside the connecting bar b31 through the inertia force generated in the lifting process of the movable rod b2, and the vibrating block b33 can generate impact vibration on the bottom of the inner wall of the connecting bar b 31.

The detailed use method and action of the embodiment are as follows:

according to the invention, printing paper is placed on an operation table 21 on a machine body 2, the left side and the right side of the printing paper are placed at the bottom of a pressing strip a1 on the operation table 21, then a linkage plate b1 on a printing mechanism 1 descends along a lifting guide frame 4 under the coordination of a rear guide rail b4, so that the linkage plate b1 can generate downward pressure on the pressing strip a1, the pressing strip a1 can press the left side and the right side of the printing paper, the pressing strip a1 can press and fix the two sides of the printing paper and lay flat, the pressing strip a1 can generate stronger gripping force on the printing paper through a contact block a11, the printing paper is prevented from moving, the printing paper is pressed downwards through a linkage plate b1 and is abutted against the brush b3 based on the upper surface of the operation table 21, and a pushing force can enable a movable rod b2 to slide along the linkage plate b1, so that the pressing brush b3 can be directly buffered by the pressing force, the situation that the printing paper is crushed due to compression of the printing paper with a small thickness is avoided, the printing paper is subjected to ink jet printing by sliding the printing mechanism 1 and the lifting guide frame 4 forwards on the machine body 2, the printing paper can be moved and flattened by the pressing block b32 on the abutting brush b3, the situation that printed fonts or patterns are distorted due to the fact that the printing paper is placed on the operation table 21 and is not flat enough can be avoided, the inertia force generated in the lifting process of the linkage plate b1 is followed by the movable rod b2, the interior of the vibrating block b33 can be bounced, the vibrating block b33 can generate impact vibration on the bottom of the inner wall of the connecting strip b31, therefore, paper scrap powder attached to the bottom of the pressing block b32 after long-time use can be vibrated down, through the above process, unevenness of rolled and stored parchment paper can be effectively avoided when the operation table 21 is used for printing, the side is always rolled up and tilted up.

Example 2

As shown in fig. 10-14:

the ink jet mechanism b5 comprises a pneumatic pump b51, an ink jet gun b52 and a connecting frame b53, the pneumatic pump b51 is fixed at the upper end of the ink jet gun b52, the connecting frame b53 is connected with the rear end of the ink jet gun b52, the connecting frame b53 can be clamped at the front end of the rear guide rail b4 to slide left and right, so that the connecting frame b53 can drive the ink jet gun b52 to slide left and right, and the ink jet gun b52 can drive the linkage plate b1 to adjust left and right positions.

The ink jet gun b52 comprises an ink collecting box c1, a transition block c2 and an ink outlet head c3, wherein the transition block c2 is fixed at the bottom position of the ink collecting box c1, the ink outlet head c3 is connected with the lower end of the transition block c2, and the transition block c2 can communicate the ink collecting box c1 with the ink outlet head c3, so that the ink collecting box c1 can guide ink into the ink outlet head c3 through the transition block c2 under the coordination of the air pressure pump b51 and then the ink is downwards ejected by the ink outlet head c 3.

The ink outlet head c3 comprises a casing c31, a lower fixed head c32, a central rod c33 and a fixed frame c34, wherein the lower fixed head c32 is fixed at the bottom center of the casing c31, the central rod c33 is installed at the inner position of the casing c31, the fixed frame c34 is embedded between the side of the central rod c33 and the inner wall of the casing c31, ink entering the casing c31 can be intensively guided into the lower fixed head c32 and then is ejected from the lower end of the lower fixed head c32, and when the ink entering the casing c31 is discharged downwards, the ink can generate a downward thrust on the upper end of the central rod c 33.

The central rod c33 includes an expansion bracket d1, a sleeve d2, a pressing rod d3, and a restoring bar d4, the expansion bracket d1 is movably engaged with the inside of the sleeve d2, the pressing rod d3 is fixed at the bottom of the expansion bracket d1, the restoring bar d4 is wound at the outer position of the pressing rod d3, the restoring bar d4 is located at the inner position of the sleeve d2, and the lower end of the pressing rod d3 is provided with a needle-like structure, so that the pressing rod d3 can slide down to crush the solidified ink inside the fixing head c32 when the ink pushes the sleeve d2 downwards, and the needle-like structure at the bottom of the pressing rod d3 is thin, so that the ink is ejected downwards through the outer surface thereof, and can be rapidly collected at the bottom of the pressing rod d3, and the ink is prevented from being forked.

The detailed use method and action of the embodiment are as follows:

in the invention, after the ink jet mechanism b5 ejects the ink with higher viscosity, a small part of the ink is remained in the lower fixed head c32 at the lower end of the ink jet mechanism b5, if the ink jet mechanism b5 is not used for a long time, the small part of the ink remained in the lower fixed head c32 is solidified, and further the outlet of the lower fixed head c32 is blocked, and the ink ejection speed is delayed, the ink in the ink collecting box c1 can be pushed out of the ink head c3 through the transition block c2 by the air pressure pump b51, and the ink pushed out of the ink head c3 generates downward pressure to the central rod c33, so that the expansion bracket d1 can slide downwards along the sleeve d2, and the expansion bracket d1 can push the lower pressing rod d 8 to slide downwards and extend, therefore, the needle-shaped pressing rod d3 can push the solidified ink in the lower fixed head c32 to eject the ink in the lower fixed head 32 quickly, and the needle-like structure of depression bar d3 bottom is thinner to the ink spouts downwards through its surface, can gather fast at depression bar d 3's bottom down, avoids the forked condition to appear in the ink, and can push expansion bracket d1 through strip d4 that resets and slide along sleeve pipe d2 and go on going up when the ink stops spouting and reset, the effectual inside remaining less part ink of lower solid head c32 solidifies and can block up the export of lower solid head c32, leads to the condition that the speed of ink blowout can appear postponing.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides an intelligent printing machine based on big data, its structure includes printing mechanism (1), organism (2), control panel (3), lift guide (4), the front end activity block of printing mechanism (1) and lift guide (4), lift guide (4) are fixed in the rear end position of organism (2), its characterized in that: the front end of the machine body (2) is connected with the control panel (3);

organism (2) include operation panel (21), remove guide (22), lower platform (23), operation panel (21) are fixed in between two removal guide (22), remove guide (22) and install in the upper surface position that connects platform (23) down.

2. The big data based intelligent printing machine according to claim 1, wherein: the operating table (21) comprises a pressing strip (a1), a bearing plate (a2), a lower clamping block (a3) and an elastic sheet (a4), the pressing strip (a1) is movably clamped with the inner portion of the bearing plate (a2), the lower clamping block (a3) is fixed at the bottom position of the bearing plate (a2), and the elastic sheet (a4) is installed between the bottom of the pressing strip (a1) and the inner wall of the bearing plate (a 2).

3. The big data based intelligent printing machine according to claim 2, wherein: the pressing strip (a1) comprises a contact block (a11), an upper plate (a12) and a clamping block (a13), the contact block (a11) is fixed at the lower end of the upper plate (a12), and the clamping block (a13) is connected with the bottom of the upper plate (a 12).

4. The big data based intelligent printing machine according to claim 1, wherein: printing mechanism (1) is including linkage board (b1), movable rod (b2), conflict brush (b3), rearmounted guide rail (b4), inkjet mechanism (b5), linkage board (b1) is connected with the bottom of inkjet mechanism (b5), the front end activity block of movable rod (b2) and linkage board (b1), conflict brush (b3) is connected with the bottom of movable rod (b2), the front end activity block of inkjet mechanism (b5) and rearmounted guide rail (b 4).

5. The big data based intelligent printing machine according to claim 4, wherein: conflict brush (b3) is including linking strip (b31), press piece (b32), vibrating mass (b33), press piece (b32) and be fixed in the bottom position of linking strip (b31), vibrating mass (b33) and the inside activity block of linking strip (b 31).

6. The big data based intelligent printing machine according to claim 4, wherein: the ink jet mechanism (b5) comprises an air pressure pump (b51), an ink jet gun (b52) and a connecting frame (b53), wherein the air pressure pump (b51) is fixed at the upper end position of the ink jet gun (b52), and the connecting frame (b53) is connected with the rear end of the ink jet gun (b 52).

7. The big data based intelligent printing machine according to claim 6, wherein: the ink jet gun (b52) comprises an ink collecting box (c1), a transition block (c2) and an ink outlet head (c3), wherein the transition block (c2) is fixed at the bottom position of the ink collecting box (c1), and the ink outlet head (c3) is connected with the lower end of the transition block (c 2).

8. The big data based intelligent printing machine according to claim 7, wherein: the ink outlet head (c3) comprises an outer shell (c31), a lower fixed head (c32), a central rod (c33) and a fixing frame (c34), wherein the lower fixed head (c32) is fixed at the center of the bottom of the outer shell (c31), the central rod (c33) is installed at the inner position of the outer shell (c31), and the fixing frame (c34) is embedded between the side of the central rod (c33) and the inner wall of the outer shell (c 31).

9. The big data based intelligent printing machine according to claim 8, wherein: the center rod (c33) comprises an expansion bracket (d1), a sleeve (d2), a lower pressure rod (d3) and a reset strip (d4), the expansion bracket (d1) is movably clamped with the inner part of the sleeve (d2), the lower pressure rod (d3) is fixed at the bottom position of the expansion bracket (d1), the reset strip (d4) is wound at the outer position of the lower pressure rod (d3), and the reset strip (d4) is located at the inner position of the sleeve (d 2).