CN210116272U - Cleaning device of fabric digital ink-jet printer - Google Patents

Abstract

The utility model discloses a cleaning device of a fabric digital ink-jet printer, which comprises an ink stack mechanism, a doctor blade moving mechanism and two electromagnet actuating mechanisms; the ink stack mechanism comprises a cleaning bottom plate and an ink stack bottom plate provided with an ink stack; the doctor blade mechanism comprises a waste ink tank, a left connecting plate, a right connecting plate, a connecting rod and two rotary seats, wherein gears are further arranged at the tail ends of the two ends of the rotary seats after penetrating through mounting holes in the connecting plates, and the gears are controlled by an electromagnet actuating mechanism, so that the rotary seats can turn 90 degrees from an initial position to a working position when working; the ink stack mechanism and the doctor blade mechanism are arranged on the doctor blade moving mechanism. The utility model has the advantages of practice thrift installation space and can the colour separation ink scraping.

Description

Cleaning device of fabric digital ink-jet printer

Technical Field

The utility model belongs to the digital ink jet printer field of surface fabric, concretely relates to digital ink jet printer's of surface fabric belt cleaning device.

Background

At present, an ink head cleaning device of a digital ink-jet printer generally has ink absorption and a scraping blade which are arranged in parallel, when the ink head needs to be cleaned, the scraping blade is fixed, the ink head moves to the position above the scraping blade to be cleaned, or the ink head is fixed, the scraping blade is moved horizontally, and the ink head is scraped and cleaned. The mechanical structures of the above modes occupy large space and cannot scrape ink in different colors.

Because the single-station T XUE garment printer needs to adapt to the office working environment, the size is smaller during design, and thus, an automatic cleaning device with complete functions and small size is needed.

Disclosure of Invention

To the problem that exists among the background art, the utility model provides a practice thrift installation space and can the digital inkjet printer's of color separation wiping china ink head belt cleaning device.

The technical scheme of the utility model as follows: a cleaning device of a fabric digital ink-jet printer comprises an ink stack mechanism, a doctor blade moving mechanism and two electromagnet actuating mechanisms;

the ink stack mechanism comprises a cleaning bottom plate and an ink stack bottom plate provided with an ink stack, four through holes are formed in four corners of the cleaning bottom plate, bearings are arranged in the through holes, and the top ends of four guide rods of the bearings are fixed on the lower surface of the ink stack bottom plate; the central position of the cleaning bottom plate is also provided with a lifting screw rod connected with a motor, and the motor is used for controlling the lifting of the screw rod;

the scraping mechanism comprises a waste ink tank, a left connecting plate, a right connecting plate, a connecting rod and two rotary seats, and scraping blades are respectively arranged on the two rotary seats; the left connecting plate and the right connecting plate are connected through a connecting rod, two ends of each rotating seat are respectively provided with a bearing, the tail end of each rotating seat after the two ends of each rotating seat penetrate through the mounting holes in the connecting plates is also provided with a gear, and the gears are controlled by an electromagnet actuating mechanism, so that the rotating seats can turn 90 degrees from an initial position to a working position when working;

the scraping blade moving mechanism comprises two support rods, a left mounting plate and a right mounting plate, wherein the left mounting plate and the right mounting plate are connected with two ends of the two support rods one by one; and two supports are connected below the mounting plates on the left side and the right side respectively, and the other ends of the supports are connected with a cleaning bottom plate in the ink stack lifting mechanism.

The utility model discloses a surface fabric digital ink jet printer's belt cleaning device, electro-magnet actuating mechanism includes gear shifting block, mounting panel, guide arm, linear bearing, electro-magnet support, electro-magnet adapter sleeve and electro-magnet.

The utility model has the advantages of as follows:

1. as the ink stack mechanism is set to be the lifting mechanism, the defect of parallel installation with the doctor blade in the prior art is overcome, the installation space is greatly structured, and the office work environment required by the small-volume single-station T XUE garment printer is realized. Further, because the ink stack mechanism can be lifted, when the ink stack is required to be cleaned, the ink stack can be lifted to a proper position, and the cleaning is convenient.

2. Because the scraping blades in the scraping blade mechanism can turn over along with the rotating seat by 90 degrees, when the scraping blade mechanism moves to a proper position, the scraping blades can be turned over and correspond to the spray heads one by one, and color separation and ink scraping can be carried out.

Drawings

Fig. 1 is a schematic structural diagram of a cleaning device of a fabric digital ink-jet printer of the present invention.

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

Fig. 3 is a schematic view of the assembled structure of fig. 1.

Fig. 4 is a schematic view of an assembly structure of the ink stack mechanism.

Fig. 5 is a schematic view of an assembled structure of the wiper moving mechanism.

Fig. 6 is a schematic view of an assembly structure of the wiper mechanism.

Fig. 7 is an assembly structure diagram of the electromagnet operating mechanism.

The ink stack mechanism 1 comprises a sensor bracket 11, a sensor 12, a motor fixing plate 13, a motor adjusting plate 14, a synchronous belt pulley 15, a synchronous belt 16, a motor 17, a motor shield 18, a probe 19, a heightening column 110, an ink stack 111, an ink stack bottom plate 112, a nut bracket 113, a horizontal optical axis bracket 114, a nut 115, a guide rod 116, a middle circular flange linear bearing lengthening type 117, a nut 118, a screw 119, a synchronous belt pulley 120, a bearing 121 and a cleaning bottom plate 122;

the device comprises an electromagnet actuating mechanism 2, a gear shifting block 21, a component mounting plate 22, an elastic retainer ring 23 for a shaft, a linear bearing 24, a guide rod 25, an electromagnet support 26, an electromagnet 27 and an electromagnet connecting sleeve 28;

the blade mechanism 3, the waste ink tank 31, the bearing 32, the gear 33, the right connecting plate 34, the rotary seat 35, the left mounting plate 36, the blade 37, the right mounting plate 38, the connecting rod 39, the left connecting plate 310, the spring pulling plate 311, the tension spring pin 312, the tension spring 313 and the blade pressing plate 314;

the wiper blade moving mechanism 4, a timing belt pressing plate 41, a right guide rod cover 42, a motor 43, a timing pulley 44, a motor cover 45, a timing belt 46, a timing pulley 47, a sensor bracket 48, a sensor 49, a timing pulley 410, a left guide rod cover 411, a probe blade 412, a linear bearing mounting block 413, a flanged bearing 414, a shaft snap spring 415, a linear bearing 416, a transmission shaft 417, a component mounting plate 418, a bracket 419, a guide rod 420, a support rod 421, a timing belt 422, a guide rod bracket 423, a driven wheel shaft 424, a timing pulley 425, a flat washer 426, a washer 427 and a nut 428.

Detailed Description

The invention will be further described with reference to specific embodiments. However, the present invention is not limited to the following examples.

As shown in fig. 1 to 3, the cleaning device of the fabric digital ink-jet printer of the present invention comprises a liftable ink stack mechanism 1, a turnable doctor blade mechanism 3, a doctor blade moving mechanism 4 and two electromagnet actuating mechanisms 2. The cartridge mechanism 1 and the blade mechanism 3 are mounted on a blade moving mechanism 4.

As shown in fig. 4, the ink stack mechanism 1 includes a sensor holder 11, a sensor 12, a motor fixing plate 13, a motor adjusting plate 14, a timing pulley 15, a timing belt 16, a motor 17, a motor cover 18, a probe sheet 19, a raising column 110, an ink stack 111, an ink stack base plate 112, a nut holder 113, a horizontal optical axis holder 114, a nut 115, a guide rod 116, a middle circular flange linear bearing extension 117, a nut 118, a screw 119, a timing pulley 120, a bearing 121, and a cleaning base plate 122. Four through holes are formed in four corners of the cleaning bottom plate 122, the through holes are used for arranging bearings 121, and the top ends of four guide rods 116 where the bearings 121 are located are fixed on the lower surface of the ink stack bottom plate 112; the central position of the cleaning bottom plate 122 is further provided with a lifting screw 119 connected with the motor 17, and the motor 7 is used for controlling the lifting of the screw 119.

The blade mechanism 3 includes a waste ink tank 31, a bearing 32, a gear 33, a right connecting plate 34, a rotary base 35, a left mounting plate 36, a blade 37, a right mounting plate 38, a connecting rod 39, a left connecting plate 310, a spring pulling plate 311, a tension spring pin 312, a tension spring 313, and a blade pressing plate 314. Four scraping blades 37 are respectively arranged on the two rotary seats 35; the left connecting plate 310 and the right connecting plate 34 are connected through a connecting rod 39, two ends of each rotating base 35 are respectively provided with a bearing 32, the tail ends of the two ends of each rotating base 35 after penetrating through the mounting holes in the connecting plates are also provided with a gear 33, and the gear 33 is controlled by an electromagnet actuating mechanism, so that the rotating bases 35 rotate integrally.

The blade moving mechanism 4 includes a timing belt pressing plate 41, a right guide bar cover 42, a motor 43, a timing pulley 44, a motor cover 45, a timing belt 46, a timing pulley 47, a sensor holder 48, a sensor 49, a timing pulley 410, a left guide bar cover 411, a probe plate 412, a linear bearing mounting block 413, a flanged bearing 414, a shaft snap spring 415, a linear bearing 416, a transmission shaft 417, a component mounting plate 418, a holder 419, a guide bar 420, a support bar 421, a timing belt 422, a guide bar holder 423, a driven wheel shaft 424, a timing pulley 425, a flat washer 426, a washer 427, and a nut 428. Guide rods 420 are respectively arranged in the left and right component mounting plates 418, and bearings 414 with flange edges are respectively arranged on the guide rods 420, and the flange edges are used for connecting the left connecting plate 310 and the right connecting plate 34 of the scraping mechanism. The flanged bearing can move along the guide rod 420; two brackets 419 are connected below the left and right component mounting plates 418, and the other ends of the brackets 419 are connected with the cleaning bottom plate 122 in the ink stack lifting mechanism.

The electromagnet actuating mechanism 2 comprises a gear shifting block 21, a shaft elastic retainer ring 23, a guide rod 25, a linear bearing 24, an electromagnet connecting sleeve 28, an electromagnet support 26, a component mounting plate 22 and an electromagnet 27.

After a power supply of the fabric ink-jet digital printer is turned on, a system board card enters an initialization process, an ink stack bottom plate drives the whole ink stack to automatically move downwards under the action of a photoelectric sensor under an ink stack mechanism, and the movement is stopped after the whole ink stack is touched by the photoelectric sensor under the ink stack mechanism. The movement of the wiper blade mechanism is also realized under the action of a light spot sensor in the wiper blade moving mechanism. The back part of the machine body of the scraping piece moving mechanism is provided with a photoelectric sensor, the scraping piece mechanism can move backwards after the machine is started and stops moving after touching the photoelectric sensor

When a cleaning command is executed, the ink stack moves upwards to a set height along with the ink stack bottom plate, the ink stack sucks the nozzle at the moment, the ink suction pump starts to work to suck ink out of the nozzle, and the ink stack moves downwards along with the ink stack bottom plate after waiting for a set time;

at the moment, the scraping mechanism starts to move forwards, when the scraping mechanism moves to a proper position, the electromagnet pushes out the gear shifting block, the gear arranged at one end of the rotating seat in the scraping mechanism automatically rotates after being collided, the scraping blades arranged on the rotating seat are turned up one by one, the electromagnet pulls the gear shifting block to return, at the moment, the scraping mechanism continues to move forwards, and the turned-up scraping blades scrape residual ink on the surface of the nozzle completely.

After the surface of the nozzle is scraped completely, a trolley with a spray head on the digital ink-jet printer moves leftwards to leave the position of a scraping blade, the scraping blade mechanism moves backwards at the moment, the electromagnet pushes out the gear shifting block again, the scraping blade falls automatically after the gear is collided, the electromagnet pulls the gear shifting block to return, and the scraping blade mechanism continues to move backwards to the position of the photoelectric sensor.

Claims (2)

1. A belt cleaning device of digital ink jet printer of surface fabric, its characterized in that: the device comprises an ink stack mechanism, a doctor blade moving mechanism and two electromagnet actuating mechanisms;

the ink stack mechanism comprises a cleaning bottom plate and an ink stack bottom plate provided with an ink stack, four through holes are formed in four corners of the cleaning bottom plate, bearings are arranged in the through holes, and the top ends of four guide rods of the bearings are fixed on the lower surface of the ink stack bottom plate; the central position of the cleaning bottom plate is also provided with a lifting screw rod connected with a motor, and the motor is used for controlling the lifting of the screw rod;

the scraping mechanism comprises a waste ink tank, a left connecting plate, a right connecting plate, a connecting rod and two rotary seats, and scraping blades are respectively arranged on the two rotary seats; the left connecting plate and the right connecting plate are connected through a connecting rod, two ends of each rotating seat are respectively provided with a bearing, the tail end of each rotating seat after the two ends of each rotating seat penetrate through the mounting holes in the connecting plates is also provided with a gear, and the gears are controlled by an electromagnet actuating mechanism, so that the rotating seats can turn 90 degrees from an initial position to a working position when working;

the scraping blade moving mechanism comprises two support rods, a left mounting plate and a right mounting plate, wherein the left mounting plate and the right mounting plate are connected with two ends of the two support rods one by one; and two supports are connected below the mounting plates on the left side and the right side respectively, and the other ends of the supports are connected with a cleaning bottom plate in the ink stack lifting mechanism.

2. The cleaning device for the fabric digital ink-jet printer according to claim 1, wherein: the electromagnet actuating mechanism comprises a gear shifting block, an installation plate, a guide rod, a linear bearing, an electromagnet support, an electromagnet connecting sleeve and an electromagnet.

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