CN210652362U - Manual double-platform ink-jet flat-plate printer - Google Patents

Abstract

The utility model relates to the field of spray painting printer equipment, in particular to a manual double-platform ink-jet flat-plate printer, which comprises a frame, a beam support, a beam, a printing trolley, a movable platform, a platform support, a sinking platform mounting plate, a guide rail I, a guide rail II and a Y-axis transmission mechanism, wherein the guide rail I is arranged on the frame and is fixedly connected with the frame, the beam support is arranged on the guide rail I and is connected with the guide rail I, the beam is arranged on the beam support and is fixedly connected with the beam support, the printing trolley is arranged on the beam and is connected with the beam, the frame is provided with a sinking groove, the utility model solves the problems that the height of the existing flat-plate ink-jet printer equipment which is adjusted by the lifting of the printing trolley has certain limitation, and the printing can not be realized due to the limitation of the height stroke of the equipment when, can not meet the use requirements of people.

Description

Manual double-platform ink-jet flat-plate printer

Technical Field

The utility model belongs to the technical field of air brushing printer equipment and specifically relates to a manual two platform inkjet flatbed printer is related to.

Background

Ink jet printers have been developed after stylus printers, and have operated in a non-impact manner. The outstanding advantages are small volume, simple and convenient operation, low printing noise, and the like, pictures comparable to photos can be printed when special paper is used, and after years of milling, the technology of the ink-jet printer has been developed greatly, and the adopted technology of the ink-jet printer mainly has two types: continuous ink jet technology and random ink jet technology, both early ink jet printers and large format ink jet printers currently employ continuous ink jet technology, while the ink jet printers currently on the market employ random ink jet technology. The continuous ink-jet technology is represented by charge modulation type, the ink in the random ink-jet system is jetted only when it is needed, so it is also called as demand type, the continuous ink-jet technology is represented by charge modulation type, the ink-jet printing principle is that the piezoelectric driving device is used to apply fixed pressure to the ink in the nozzle, so that it can continuously jet, the vibration signal of oscillator is used to excite jet to generate ink drops, and the size and spacing of the ink drops are controlled, the printing information from character generator and analog modulator is used to control the charge on the control telegram to form charged and uncharged ink drops, then the deflection electrode is used to change the flying direction of the ink drops, so that the ink drops to be printed can fly to the paper surface to generate character/graphic record, the ink drops not involved in the record can be recovered by the conduit, for the deflection electrode, some systems adopt two pairs of deflection electrodes which are mutually perpendicular, performing two-dimensional deflection type on the printing position of the ink drop; some systems use multidimensional control of the deflection electrodes, i.e. multidimensional deflection type. The random ink jet system, in which ink is ejected only when it is needed for printing, is also called as on-demand type, and has a simple structure, low cost and high reliability compared with the continuous type, but because the ink drop ejection speed is low due to the influence of jet inertia, in order to make up for this drawback, the random ink jet printer adopts a multi-nozzle method to increase the printing speed.

Common current flat inkjet printer equipment in the existing market all has the requirement to the material length, width, the height that need print, and the regulation of equipment to printing height mainly realizes printing dolly height through the motor drive lead screw on the printing dolly and goes up and down, however, singly lean on printing dolly lift adjustment's height to have certain limitation, can't print because of the restriction of equipment height stroke when printing super high material, consequently can not satisfy people's user demand.

Disclosure of Invention

In order to solve present flat inkjet printer equipment singly lean on printing dolly lift adjustment's height to have certain limitation, because of the unable printing of equipment height stroke restriction when printing the ultra-high material, consequently can not satisfy people's user demand's problem, the utility model provides a manual two platform inkjet flat printer, its technical scheme is as follows: a manual dual-platform ink-jet flat-panel printer comprises a rack, a beam support, a beam, a printing trolley, a movable platform, a platform support, a sinking platform mounting plate, a guide rail I, a guide rail II and a Y-axis transmission mechanism, wherein the guide rail I is arranged on the rack and fixedly connected with the rack, the beam support is arranged on the guide rail I and fixedly connected with the guide rail I, the beam is arranged on the beam support and fixedly connected with the beam support, the printing trolley is arranged on the beam and connected with the beam, a sinking groove is arranged on the rack, the sinking platform mounting plate is arranged at the bottom of the sinking groove and connected with the rack, the guide rail II is arranged on the beam and fixedly connected with the beam, the platform support is arranged at the two sides of the upper part of the sinking groove and fixedly connected with the rack, the movable platform is arranged on the platform support and connected with the platform support, and the Y-axis transmission mechanism is arranged on the rack and connected with the rack;

the Y-axis transmission mechanism comprises a servo motor, a synchronous optical axis, a driving synchronous pulley, a steering pulley bracket, a rear synchronous pulley, a belt guide pulley, a pulley bracket, a front synchronous pulley, a synchronous belt and a motor belt, wherein the servo motor is provided with a motor wheel, the synchronous optical axis is fixedly provided with a synchronous optical axis driving wheel, the motor wheel is connected with the synchronous optical axis driving wheel through the motor belt, the driving synchronous pulley is arranged at the end part of the two sides of the synchronous optical axis and is fixedly connected with the synchronous optical axis, the front synchronous pulley is arranged on the pulley bracket and is connected with the pulley bracket, the rear synchronous pulley and the belt guide pulley are arranged on the steering pulley bracket and are connected with the steering pulley bracket, and the driving synchronous pulley, the rear synchronous pulley, the belt guide pulley and the front synchronous pulley are connected through the synchronous belt, the beam support is arranged on the synchronous belt and is fixedly connected with the synchronous belt;

the frame is provided with a front sealing plate and a rear sealing plate which are fixedly connected with the frame;

the lower part of the movable platform is provided with a unilateral pulley which is fixedly connected with the movable platform;

the movable platform is connected with the platform support in a sliding manner through a unilateral pulley;

the movable platform is locked and fixed with the platform support through a buckle;

the utility model has the advantages that: the utility model discloses structural design science, production and processing technology is simple and convenient, utilizes the utility model provides a present flat inkjet printer equipment singly lean on printing dolly lift adjustment's height to have certain limitation, can't print because of the restriction of the high stroke of equipment when printing the ultra-high material, can not satisfy people's user demand's problem, moreover, the utility model discloses operation simple to use makes through the design of formula recess that sinks and movable platform the utility model discloses can satisfy the inkjet printing of the not co-altitude work piece, intercommunication around the platform sinks, the unloading needs on the convenient large-scale work piece.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a schematic perspective view of the present invention;

fig. 3 is a schematic view of a frame structure in the present invention;

fig. 4 is a schematic structural view of the movable platform of the present invention;

fig. 5 is a first structural schematic diagram of the Y-axis transmission mechanism of the present invention;

fig. 6 is a schematic structural view of a Y-axis transmission mechanism in the present invention;

the reference numbers in the figures are: 1-frame, 2-beam support, 3-beam, 4-printing trolley, 5-front and back seal plates, 6-movable platform, 7-platform support, 8-unilateral pulley, 9-sinking platform mounting plate, 10-servo motor, 11-synchronous optical axis, 12-driving synchronous pulley, 13-turning pulley support, 14-rear end synchronous pulley, 15-belt guide wheel, 16-pulley support, 17-front end synchronous pulley, 18-synchronous belt, 19-guide rail I, 20-guide rail II, 21-sinking groove, 22-motor belt, 23-motor wheel, 24-synchronous optical axis driving wheel and 25-hasp.

Detailed Description

Specific example 1: the best mode of the invention is further described by combining the description with the attached figure 1, the description with the attached figure 2, the description with the attached figure 3, the description with the attached figure 4, the description with the attached figure 5 and the description with the attached figure 6: a manual double-platform ink-jet flat-panel printer comprises a rack 1, a beam support 2, a beam 3, a printing trolley 4, a movable platform 6, a platform support 7, a sinking platform mounting plate 9, a guide rail I19, a guide rail II20 and a Y-axis transmission mechanism, wherein the guide rail I19 is arranged on the rack 1 and fixedly connected with the rack 1, the beam support 2 is arranged on the guide rail I19 and connected with the guide rail I19, the beam 3 is arranged on the beam support 2 and fixedly connected with the beam support 2, the printing trolley 4 is arranged on the beam 3 and connected with the beam 3, the rack 1 is provided with a sinking groove 21, the sinking platform mounting plate 9 is arranged at the bottom of the sinking groove 21 and connected with the rack 1, the guide rail II20 is arranged on the beam 3 and fixedly connected with the beam 3, the platform support 7 is arranged at the two sides of the upper part of the sinking groove 21 and fixedly connected with the rack 1, the movable platform 6 is arranged on the platform support 7 and connected with the platform support 7, and the Y-axis transmission mechanism is arranged on the rack 1 and connected with the rack 1; the Y-axis transmission mechanism comprises a servo motor 10, a synchronous optical axis 11, a driving synchronous pulley 12, a steering pulley support 13, a rear synchronous pulley 14, a belt guide wheel 15, a pulley support 16, a front synchronous pulley 17, a synchronous belt 18 and a motor belt 22, wherein the servo motor 10 is provided with a motor wheel 23, the synchronous optical axis 11 is fixedly provided with a synchronous optical axis driving wheel 24, the motor wheel 23 is connected with the synchronous optical axis driving wheel 24 through the motor belt 22, the driving synchronous pulley 12 is arranged at the end parts of two sides of the synchronous optical axis 11 and is fixedly connected with the synchronous optical axis 11, the front synchronous pulley 17 is arranged on the pulley support 16 and is connected with the pulley support 16, the rear synchronous pulley 14, the belt guide wheel 15 are arranged on the steering pulley support 13 and are connected with the steering pulley support 13, and the driving synchronous pulley 12, The rear end synchronous pulley 14, the belt guide pulley 15 and the front end synchronous pulley 17 are connected through a synchronous belt 18, and the beam bracket 2 is arranged on the synchronous belt 18 and is fixedly connected with the synchronous belt 18; above-mentioned technical scheme makes through the design of formula of sinking recess 21 and movable platform 6 the utility model discloses can satisfy the inkjet printing of not co-altitude work piece, intercommunication around the platform sinks, and unloading needs on convenient large-scale work piece have solved present current flat inkjet printer equipment and have had certain limitation alone by printing dolly lift adjustment's height, because of the unable problem of printing of equipment height stroke restriction when printing ultra high material.

Specific example 2: the best mode of the invention is further described by combining the description with the attached figure 1, the description with the attached figure 2, the description with the attached figure 3, the description with the attached figure 4, the description with the attached figure 5 and the description with the attached figure 6: in order to improve the technical scheme of the utility model, on the basis of the specific embodiment 1, the frame 1 is provided with a front closing plate and a rear closing plate 5, the front closing plate and the rear closing plate 5 are fixedly connected with the frame 1, the lower part of the movable platform 6 is provided with a unilateral pulley 8, and the unilateral pulley 8 is fixedly connected with the movable platform 6; movable platform 6 slide with platform support 7 through unilateral pulley 8 and be connected, above-mentioned technical scheme compares with the technical scheme among the embodiment 1, has increased through setting up of front and back shrouding 5 the utility model discloses an overall structure's security through the setting of unilateral pulley 8, makes movable platform 6 slide on platform support 7 more smoothly.

The utility model discloses theory of operation and working process at specific during operation do:

the utility model discloses set up formula recess 21 of sinking in the middle of frame 1, intercommunication around formula recess 21 of sinking, guide rail I19 is installed at 1 both ends of frame, guide rail I19 top fixed mounting has beam support 2, beam support 2 installs crossbeam 3 in the top, install guide rail II20 on the crossbeam 3, print dolly 4 is installed to guide rail II 20's top, crossbeam 3 and print dolly 4 and be the motion of Y axle direction along frame 1, print dolly 4 and be the motion of X axle direction along crossbeam 3, frame 1 adopts full square pipe welding frame, both ends set up fixed frame about, fixed frame installation Y axle portable rail I19, 1 intermediate position of frame sinks and forms formula recess 21 promptly, formula recess 21 bottom sets up connecting square pipe, fixed frame and increase frame 1's bulk strength about connecting square pipe connection, rigidity. Sunken formula recess 21 bottom connecting square pipe's top installation sunken platform mounting panel 9 prints sunken platform as printer equipment bottom, sunken formula recess 21 both sides appointed high installation fixed platform supports 7 about frame 1, but movable platform 6 of push-and-pull removal is placed to platform support 7 top, unilateral pulley 8 is installed to 6 bottom both sides of movable platform makes things convenient for the platform push-and-pull to remove, when using upper platform to print the during operation, movable platform 6 aligns with platform support 7, 6 four corners of movable platform are fixed through hasp locking with platform support 7, when using lower floor's platform, movable platform 6 is released backward through unilateral pulley 8 of bottom installation, make the work piece place and print the operation on lower floor's platform. The positions of the sunken grooves 21 on the rack 1 are communicated with each other front and back, a Y-axis transmission mechanism for driving a Y-axis to move needs to be moved to the position below the bottom sunken platform mounting plate 9, the Y-axis transmission is synchronous belt transmission, driving synchronous belt wheels 12 are respectively mounted at two ends of a synchronous optical axis 11, a steering belt wheel bracket 13 is arranged above the synchronous optical axis, a rear synchronous belt wheel 14 and a belt guide wheel 15 are mounted above the steering belt wheel bracket 13, a belt wheel bracket 16 is mounted at the front end of the rack 1, a front synchronous belt wheel 17 is mounted on the belt wheel bracket 16, two ends of a synchronous belt 18 are fixed on the cross beam bracket 2 together, the synchronous belt 18 sequentially penetrates through the front synchronous belt wheel 17, the rear synchronous belt wheel 14, the belt guide wheel 15 and the synchronous belt wheel 12 to form a ring, the synchronous belt wheel 12 is fixedly connected with the synchronous optical axis 11, a servo motor, The rear end synchronous belt pulley 14 and the front end synchronous belt pulley 17 rotate, the synchronous belt 18 is driven to move through the rotation of the synchronous belt pulley 12, the beam support 2 on the synchronous belt 18 is driven to move, the beam support 2, the beam 3 and the printing trolley 4 do Y-axis longitudinal movement together, the rear end synchronous belt pulley 14 and the belt guide wheel 15 mounted above the steering belt pulley support 13 drive the Y-axis transmission mechanism to move to a position below the rack 1 and below the sinking platform mounting plate 9 at the bottom of the sinking groove 21, and the front and back intercommunication of the middle sinking position of the rack 1 is achieved.

Claims (6)

1. A manual dual-platform ink-jet flat-plate printer is characterized by comprising a rack, a beam support, a beam, a printing trolley, a movable platform, a platform support, a sinking platform mounting plate, a guide rail I, a guide rail II and a Y-axis transmission mechanism, wherein the guide rail I is arranged on the rack and fixedly connected with the rack, the beam support is arranged on the guide rail I and fixedly connected with the guide rail I, the beam is arranged on the beam support and fixedly connected with the beam support, the printing trolley is arranged on the beam and connected with the beam, a sinking groove is arranged on the rack, the sinking platform mounting plate is arranged at the bottom of the sinking groove and connected with the rack, the guide rail II is arranged on the beam and fixedly connected with the beam, the platform support is arranged at the two sides of the upper part of the sinking groove and fixedly connected with the rack, the movable platform is arranged on the platform support and connected with the platform support, and the Y-axis transmission mechanism is arranged on the rack and connected with the rack.

2. The manual dual-platform inkjet flatbed printer as claimed in claim 1, wherein the Y-axis transmission mechanism comprises a servo motor, a synchronous optical axis, a driving synchronous pulley, a steering pulley holder, a rear synchronous pulley, a belt guide pulley, a pulley holder, a front synchronous pulley, a synchronous belt and a motor belt, the servo motor is provided with a motor wheel, the synchronous optical axis is fixedly provided with a synchronous optical axis driving wheel, the motor wheel is connected with the synchronous optical axis driving wheel through the motor belt, the driving synchronous pulley is arranged at the end positions of both sides of the synchronous optical axis and is fixedly connected with the synchronous optical axis, the front synchronous pulley is arranged on the pulley holder and is connected with the pulley holder, the rear synchronous pulley and the belt guide pulley are arranged on the steering pulley holder and are connected with the steering pulley holder, the driving synchronous belt wheel, the rear end synchronous belt wheel, the belt guide wheel and the front end synchronous belt wheel are connected through a synchronous belt, and the beam support is arranged on the synchronous belt and is fixedly connected with the synchronous belt.

3. A manual dual platform ink jet flatbed printer as in claim 1 wherein front and rear closure plates are provided on the frame, the front and rear closure plates being fixedly attached to the frame.

4. A manual dual stage ink jet flatbed printer as in claim 1 wherein the lower portion of the movable stage is provided with a single side pulley, the single side pulley being fixedly connected to the movable stage.

5. A manual dual stage inkjet flatbed printer as in claim 1 wherein the movable stage is slidably connected to the stage support by a single side pulley.

6. A manual dual stage ink jet flatbed printer as in claim 1 wherein the movable stage is secured to the stage support by snap-fit fasteners.

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