CN111703200B

CN111703200B - Ink supply structure for printing machine

Info

Publication number: CN111703200B
Application number: CN202010686719.0A
Authority: CN
Inventors: 洪军
Original assignee: Guangdong Ziquan Label Co ltd
Current assignee: Guangdong Ziquan Label Co ltd
Priority date: 2020-07-16
Filing date: 2020-07-16
Publication date: 2024-06-11
Anticipated expiration: 2040-07-16
Also published as: CN111703200A

Abstract

The invention provides an ink supply structure for a printer, which comprises a bottom plate, a vertical plate arranged on one side of the top surface of the bottom plate, and a pressing plate arranged on one side of the top of the vertical plate, which is close to the center of the bottom plate, wherein the pressing plate is obliquely upwards arranged; the top surface of the bottom plate is provided with an ink barrel, the ink barrel can move towards the direction close to or far from the vertical plate, the two sides of the top of the ink barrel are penetrated with ink transfer rollers, the top of the ink barrel is provided with a shielding cover, one side of the shielding cover close to the vertical plate is in pin joint fit with the ink barrel, the shielding cover is connected with the ink barrel through a tension spring, and the shielding cover is opened under the action of the tension spring when the ink barrel moves towards the side far from the vertical plate; when the ink barrel moves towards the vertical plate, the shielding cover is opened to be reset and covered by the pressing plate; when the ink is in a standby state, the ink transfer part is shielded, so that the ink is in the closed space, the volatilization of organic components can be effectively prevented, and the waste and pollution are reduced; when ink is required to be supplied, the shielding can be automatically opened, and the ink is contacted with the ink transfer roller, so that the ink supply is realized.

Description

Ink supply structure for printing machine

Technical Field

The invention relates to the field of ink supply structures, in particular to an ink supply structure for a printer.

Background

Most of the existing ink supply devices are used for separating the ink tank from the ink barrel, and then the ink tank and the ink barrel are communicated through the ink pump, when the ink in the ink tank is about to run out, the ink in the ink barrel is supplied to the ink tank through the ink pump, and the common ink supply device easily causes that the ink at the bottom of the ink tank is not used, and long-time precipitation is adhered to the ink tank and is not easy to clean; and the ink in the ink tank is directly exposed to the air no matter whether the printer is in a working state or not, and organic components in the ink volatilize to cause pollution.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide an ink supply structure for a printer, which has novel structure, can enable ink to be received in an ink barrel in a standby state and can shield an ink transmission part, so that the ink is in a closed space, thereby effectively preventing organic components from volatilizing and reducing waste and pollution; when ink is required to be supplied, the shielding can be automatically opened, and the ink is contacted with the ink transfer roller, so that the ink supply is realized.

To achieve the purpose, the invention adopts the following technical scheme:

The invention provides an ink supply structure for a printer, which comprises a bottom plate, a vertical plate fixedly arranged on one side of the top surface of the bottom plate, and a pressing plate arranged on one side of the top of the vertical plate, which is close to the center of the bottom plate, wherein the pressing plate is obliquely upwards arranged; the top surface of the bottom plate is provided with an ink barrel, the ink barrel can move towards the direction close to or far away from the vertical plate, two sides of the top of the ink barrel are provided with ink transfer rollers in a penetrating way, the top of the ink barrel is provided with a shielding cover, one side of the shielding cover close to the vertical plate is in pin joint fit with the ink barrel, the shielding cover is connected with the ink barrel through a tension spring, and when the ink barrel moves towards the side far from the vertical plate, the shielding cover is opened under the action of the tension spring; when the ink barrel moves towards the vertical plate, the shielding cover is opened to reset and cover through the pressing plate; the ink barrel is internally and fixedly provided with a partition board, the partition board is positioned below the ink transfer roller, a piston is arranged below the partition board, the piston vertically extends along the ink barrel, a push rod motor is arranged below the piston, the bottom of the push rod motor is fixed at the bottom of the ink barrel, and the top end of a piston rod of the push rod motor is fixedly connected with the bottom of the piston; an ink transfer chamber is arranged between the partition plate and the top of the ink barrel, an ink storage chamber is arranged between the partition plate and the piston, a through hole is formed in one side, away from the vertical plate, of the partition plate, the ink transfer chamber is communicated with the ink storage chamber through the through hole, and a blocking structure for blocking isolation is arranged at the through hole; the ink barrel inner wall close to the through hole is fixedly provided with a first liquid level sensor and a second liquid level sensor, the first liquid level sensor is located above the through hole and located at a height higher than the bottom of the ink transfer roller, and the second liquid level sensor is located in the through hole.

In the preferred technical scheme of the invention, the top surface of the bottom plate is fixedly provided with a guide bar, the extending direction of the guide bar is vertical to the vertical plate, the bottom of the ink barrel is fixedly provided with a sliding seat, and the ink barrel moves along the guide bar through the sliding seat; a rack is fixedly arranged on the top surface of the bottom plate, the rack is parallel to the guide bar, a driving motor is fixedly arranged at the bottom of the ink barrel, a gear is fixedly arranged on an output shaft of the driving motor, and the gear is meshed with the rack for transmission; the driving motor drives the ink barrel to move along the guide strip.

In the preferred technical scheme of the invention, one end of the guide bar, which is far away from the vertical plate, is fixedly provided with a stop block, and when the ink barrel moves to the stop block, the ink transfer roller abuts against the ink transfer roller of the printing mechanism.

In a preferred technical scheme of the invention, the top surface of the partition board is obliquely arranged, and the through hole is arranged at the lower side of the inclination.

In a preferred technical scheme of the invention, the plugging structure comprises a baffle, a guide frame is arranged on the top surface of the baffle, the baffle moves close to the top surface of the baffle through the guide frame, and the baffle is used for plugging the through hole; the baffle is close to the wall surface of the through hole and is embedded with a magnet block, the outer wall of the ink barrel is embedded with an electromagnet corresponding to the through hole, the magnetism of the electromagnet which is connected with the electricity is the same as that of the magnet block, and the electromagnet which is connected with the electricity is used for pushing away the baffle and releasing the blocking of the baffle to the through hole.

In the preferred technical scheme of the invention, the top surface of the shielding cover is of an arc-shaped convex structure.

In the preferred technical scheme of the invention, the guide strip is of a T-shaped convex strip structure, and the sliding groove of the sliding seat is matched with the guide strip in shape.

The invention provides an ink supply structure for a printer, which has novel structure, wherein the inner part of an ink barrel is divided into an ink transfer chamber and an ink storage chamber by a baffle plate, a through hole is formed in the baffle plate, a blocking structure is arranged at the through hole, the blocking structure releases blocking of the through hole when ink is required to be supplied, a push rod motor drives a piston to lift, ink in the ink storage chamber is supplied into the ink transfer chamber, and ink is supplied to an ink transfer roller; when the ink storage device is in standby, the push rod motor drives the piston to descend, ink flows back to the ink storage chamber along the partition plate through the through hole, and the blocking structure blocks the through hole again, so that the ink is stored in the ink storage chamber, the volatilization of the ink is prevented, and the waste and pollution are reduced; the ink barrel can move, the shielding cover is in pin joint fit with the ink barrel, and the pin joint position is matched through the tension spring, when the ink barrel moves in the direction away from the vertical plate, the shielding cover can be separated from the pressing plate, so that the shielding cover is opened, the ink transfer roller is exposed, and the ink transfer roller is in abutting contact with the ink roller of the printer, so that ink transfer is realized; when the ink barrel moves towards the direction close to the vertical plate, the unfolded shielding cover is limited by the pressing plate, so that the ink transfer chamber and the ink transfer roller are further closed, and even if residual ink adheres to the ink transfer chamber or the ink transfer roller, the volatilization of organic matters can be prevented, and pollution is further reduced.

Drawings

Fig. 1 is a schematic view of a configuration of a standby state of an ink supply structure for a printer according to an embodiment of the present invention;

FIG. 2 is a schematic view of an operation state of an ink supply structure for a printing press according to an embodiment of the present invention;

Fig. 3 is a schematic view showing an internal structure of a standby state of an ink supply structure for a printer according to an embodiment of the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3;

Fig. 5 is a schematic view showing an internal structure of a standby state of an ink supply structure for a printer according to an embodiment of the present invention.

In the figure:

100. a bottom plate; 110. a vertical plate; 120. a pressing plate; 130. a guide bar; 140. a rack; 150. a stop block; 200. an ink barrel; 210. a shielding cover; 220. a tension spring; 230. a partition plate; 240. a piston; 250. a push rod motor; 260. an ink transfer chamber; 270. an ink storage chamber; 280. a through hole; 290. a sliding seat; 300. an ink transfer roller; 400. a plugging structure; 410. a baffle; 420. a magnet block; 430. an electromagnet; 440. a guide frame; 510. a first liquid level sensor; 520. a second liquid level sensor; 600. a driving motor; 610. a gear.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 5, in the embodiment of the present invention, an ink supply structure for a printing machine is disclosed, which includes a base plate 100, a vertical plate 110 fixedly disposed on one side of a top surface of the base plate 100, a pressing plate 120 disposed on one side of a top of the vertical plate 110 near a center of the base plate 100, and the pressing plate 120 disposed obliquely upward; the top surface of the bottom plate 100 is provided with an ink barrel 200, the ink barrel 200 can move towards a direction approaching or far away from the vertical plate 110, two sides of the top of the ink barrel 200 are provided with ink transfer rollers 300 in a penetrating way, the top of the ink barrel 200 is provided with a shielding cover 210, one side of the shielding cover 210 close to the vertical plate 110 is in pivot joint with the ink barrel 200, the shielding cover 210 is connected with the ink barrel 200 through a tension spring 220, and when the ink barrel 200 moves towards one side far away from the vertical plate 110, the shielding cover 210 is opened under the action of the tension spring 220; when the ink barrel 200 moves towards the vertical plate 110, the shielding cover 210 is opened to reset and cover through the pressing plate 120; the ink barrel 200 is internally and fixedly provided with a baffle 230, the baffle 230 is positioned below the ink transfer roller 300, a piston 240 is arranged below the baffle 230, the piston 240 vertically extends along the ink barrel 200, a push rod motor 250 is arranged below the piston 240, the bottom of the push rod motor 250 is fixed at the bottom of the ink barrel 200, and the top end of a piston rod of the push rod motor 250 is fixedly connected with the bottom of the piston 240; an ink transfer chamber 260 is arranged between the partition plate 230 and the top of the ink barrel 200, an ink storage chamber 270 is arranged between the partition plate 230 and the piston 240, a through hole 280 is formed in one side of the partition plate 230 away from the vertical plate 110, the ink transfer chamber 260 and the ink storage chamber 270 are communicated through the through hole 280, and a blocking structure 400 for blocking and isolating is arranged at the through hole 280; the inner wall of the ink barrel 200 near the through hole 280 is fixedly provided with a first liquid level sensor 510 and a second liquid level sensor 520, the first liquid level sensor 510 is positioned above the through hole 280 and is positioned at a higher level than the bottom of the ink transfer roller 300, and the second liquid level sensor 520 is positioned in the through hole 280.

The ink supply structure for the printer has novel structure, the partition plate 230 divides the interior of the ink barrel 200 into the ink transfer chamber 260 and the ink storage chamber 270, the partition plate 230 is provided with the through hole 280, the through hole 280 is provided with the blocking structure 400, the blocking structure 400 releases the blocking of the through hole 280 when the ink is required to be supplied, the push rod motor 250 drives the piston 240 to lift, the ink in the ink storage chamber 270 is supplied into the ink transfer chamber 260, and the ink transfer roller 300 is supplied with the ink; while in standby, the push rod motor 250 drives the piston 240 to descend, ink flows back into the ink storage chamber 270 along the partition 230 through the through hole 280, and the blocking structure 400 blocks the through hole 280 again, so that the ink is stored in the ink storage chamber 270, the volatilization of the ink is prevented, and the waste and pollution are reduced; the ink barrel 200 can move, the shielding cover 210 is in pin joint fit with the ink barrel 200, and the pin joint position is matched through the tension spring 220, when the ink barrel 200 moves in the direction away from the vertical plate 110, the shielding cover 210 can be separated from the pressing plate 120, so that the shielding cover 210 is opened, the ink transfer roller 300 is exposed, and the ink transfer roller 300 is in abutting contact with the ink roller of the printer, so that ink transfer is realized; when the ink barrel 200 moves in the direction approaching the vertical plate 110, the opened shielding cover 210 is limited by the pressing plate 120, so that the ink transfer chamber 260 and the ink transfer roller 300 are further shielded, and even if residual ink adheres to the ink transfer chamber 260 or the ink transfer roller 300, the volatilization of organic matters can be prevented, and the pollution is further reduced.

Further, a guide bar 130 is fixedly arranged on the top surface of the bottom plate 100, the extending direction of the guide bar 130 is perpendicular to the vertical plate 110, a sliding seat 290 is fixedly arranged at the bottom of the ink barrel 200, and the ink barrel 200 moves along the guide bar 130 through the sliding seat 290; a rack 140 is fixedly arranged on the top surface of the bottom plate 100, the rack 140 is parallel to the guide bar 130, a driving motor 600 is fixedly arranged at the bottom of the ink barrel 200, a gear 610 is fixedly arranged on an output shaft of the driving motor 600, and the gear 610 is meshed with the rack 140 for transmission; the driving motor 600 drives the ink tank 200 to move along the guide bar 130; the structural design can realize the automatic movement of the ink tank 200 by starting the driving motor 600, thereby realizing the opening and closing of the shielding cover 210.

Further, a stopper 150 is fixedly disposed at an end of the guide bar 130 away from the vertical plate 110, and when the ink barrel 200 moves to the stopper 150, the ink transfer roller 300 abuts against the ink roller of the printing mechanism.

Further, the top surface of the partition 230 is inclined, and the through hole 280 is provided at the lower side of the inclination; this configuration allows for smooth ink return to the ink reservoir 270.

Further, the blocking structure 400 includes a baffle 410, a guide frame 440 is disposed on the top surface of the partition 230, the baffle 410 moves close to the top surface of the partition 230 via the guide frame 440, and the baffle 410 is used for blocking the through hole 280; a magnet block 420 is embedded on the wall surface of the baffle 410, which is close to the through hole 280, an electromagnet 430 is embedded on the outer wall of the ink barrel 200, which corresponds to the through hole 280, the magnetism of the electromagnet 430 which is connected with the electricity is the same as that of the magnet block 420, and the electromagnet 430 which is connected with the electricity is used for pushing the baffle 410 away and releasing the blocking of the baffle 410 on the through hole 280; the structural design can effectively block the through hole 280, and when the electromagnet 430 is powered on, the electromagnet 430 and the magnet block 420 have the same magnetism and repel each other, so that the baffle 410 contacts to block the through hole 280; when the electromagnet 430 is powered off, the electromagnet 430 demagnetizes, and the baffle 410 resets under the action of self gravity to block the through hole 280.

Further, the top surface of the shielding cover 210 has an arc-shaped protruding structure; this design may allow better contact between the platen 120 and the shield 210, and may ensure that the shield 210 is properly closed, particularly when the ink cartridge 200 is moved toward the vertical plate 110.

Further, the guiding strip 130 is a T-shaped protruding strip, and the sliding groove of the sliding seat 290 is adapted to the shape of the guiding strip 130.

Working principle:

When ink is required to be supplied, the driving motor 600 drives the ink barrel 200 to move towards one side far away from the vertical plate 110, when the shielding cover 210 is separated from the limit of the pressing plate 120, the shielding cover 210 is opened under the action of the tension spring 220 to expose the ink transfer roller 300, and after the ink barrel 200 moves in place, the ink transfer roller 300 is in abutting contact with the ink roller of the printer; then the electromagnet 430 is powered on, the magnetism between the electromagnet 430 and the magnet block 420 is the same and the magnets repel each other, so that the blocking plate 410 releases the blocking of the through hole 280, and the ink transfer chamber 260 is communicated with the ink storage chamber 270; then the push rod motor 250 is started to push the ink to the ink transfer chamber 260 until the first liquid level sensor 510 detects that the ink is in place to stop the push rod motor 250, and the ink at the moment contacts with the ink transfer roller to realize ink transfer; after printing is finished, the push rod motor 250 is started to drive the piston 240 to move downwards, ink flows back to the ink storage chamber, and the push rod motor 250 is stopped until the second liquid level sensor 520 detects that the ink just falls below the second liquid level sensor 520, so that the rising amplitude of the subsequent push rod motor 250 is reduced; then the electromagnet 430 is powered off, the electromagnet 430 is demagnetized, and the baffle 410 plugs the through holes 280 downwards along the top surface of the partition plate 230; then, the driving motor 600 is started to rotate reversely, the ink barrel 200 is driven to move towards one side close to the vertical plate 110, the shielding cover 210 is limited by the pressing plate 120 in the moving process, so that the shielding cover 210 is closed, and after the ink barrel 200 moves in place, the shielding cover 210 completely shields the top of the ink barrel 200, and the ink transfer chamber 260 and the ink transfer roller 300 are covered; it should be noted that, when the ink is below the detection range of the first level sensor 510 during the ink transferring operation, the push rod motor 250 is started to move upwards, so that the ink is pushed to the first level sensor 510 to ensure that the ink transferring roller 300 can be supplied with ink.

While the application has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the application. The application is not to be limited by the specific embodiments disclosed herein, but rather, embodiments falling within the scope of the appended claims are intended to be embraced by the application.

Claims

1. An ink supply structure for a printing machine, characterized in that:

the vertical plate comprises a bottom plate (100), and a vertical plate (110) fixedly arranged on one side of the top surface of the bottom plate (100), wherein a pressing plate (120) is arranged on one side, close to the center of the bottom plate (100), of the top of the vertical plate (110), and the pressing plate (120) is obliquely upwards arranged;

The top surface of the bottom plate (100) is provided with an ink barrel (200), the ink barrel (200) can move towards a direction close to or far away from the vertical plate (110), ink transfer rollers (300) are arranged on two sides of the top of the ink barrel (200) in a penetrating mode, a shielding cover (210) is arranged on the top of the ink barrel (200), one side, close to the vertical plate (110), of the shielding cover (210) is in pin joint with the ink barrel (200), the shielding cover (210) is connected with the ink barrel (200) through an extension spring (220), and when the ink barrel (200) moves towards a side far away from the vertical plate (110), the shielding cover (210) is opened under the action of the extension spring (220); when the ink barrel (200) moves towards the vertical plate (110), the shielding cover (210) is opened to be covered by the pressing plate (120) in a resetting way;

The ink barrel (200) is internally and fixedly provided with a partition board (230), the partition board (230) is positioned below the ink transfer roller (300), a piston (240) is arranged below the partition board (230), the piston (240) vertically extends along the ink barrel (200), a push rod motor (250) is arranged below the piston (240), the bottom of the push rod motor (250) is fixed at the bottom of the ink barrel (200), and the top end of a piston rod of the push rod motor (250) is fixedly connected with the bottom of the piston (240); an ink transfer chamber (260) is arranged between the partition plate (230) and the top of the ink barrel (200), an ink storage chamber (270) is arranged between the partition plate (230) and the piston (240), a through hole (280) is formed in one side, far away from the vertical plate (110), of the partition plate (230), the ink transfer chamber (260) is communicated with the storage Mo Shi (270) through the through hole (280), and a blocking structure (400) for blocking is arranged at the through hole (280);

A first liquid level sensor (510) and a second liquid level sensor (520) are fixedly arranged on the inner wall of the ink barrel (200) close to the through hole (280), the first liquid level sensor (510) is positioned above the through hole (280) and is positioned at a height higher than the bottom of the ink transfer roller (300), and the second liquid level sensor (520) is positioned in the through hole (280);

The top surface of the bottom plate (100) is fixedly provided with a guide strip (130), the extending direction of the guide strip (130) is perpendicular to the vertical plate (110), the bottom of the ink barrel (200) is fixedly provided with a sliding seat (290), and the ink barrel (200) moves along the guide strip (130) through the sliding seat (290);

The top surface of the bottom plate (100) is fixedly provided with a rack (140), the rack (140) is parallel to the guide strip (130), the bottom of the ink barrel (200) is fixedly provided with a driving motor (600), the output shaft of the driving motor (600) is fixedly provided with a gear (610), and the gear (610) is meshed with the rack (140) for transmission; the driving motor (600) drives the ink barrel (200) to move along the guide strip (130);

A stop block (150) is fixedly arranged at one end, far away from the vertical plate (110), of the guide strip (130), and when the ink barrel (200) moves to the stop block (150), the ink transfer roller (300) abuts against an ink roller of the printing mechanism to transfer ink;

the top surface of the shielding cover (210) is of an arc-shaped protruding structure; the guide strip (130) is of a T-shaped raised strip structure, and the sliding groove of the sliding seat (290) is matched with the guide strip (130) in shape.

2. An ink supply structure for a printing press according to claim 1, wherein:

The top surface of the partition plate (230) is obliquely arranged, and the through hole (280) is arranged on the lower side of the inclination.

3. An ink supply structure for a printing press according to claim 1, wherein:

The blocking structure (400) comprises a baffle (410), a guide frame (440) is arranged on the top surface of the baffle (230), the baffle (410) is tightly attached to the top surface of the baffle (230) through the guide frame (440) to move, and the baffle (410) is used for blocking the through hole (280); the baffle (410) is close to the wall surface of the through hole (280) and is embedded with a magnet block (420), the outer wall of the ink barrel (200) is embedded with an electromagnet (430) corresponding to the through hole (280), the magnetism of the electromagnet (430) which is connected with electricity is the same as that of the magnet block (420), and the electromagnet (430) which is connected with electricity is used for pushing away the baffle (410) and releasing the blocking of the baffle (410) to the through hole (280).