CN117621661B - A bagged cement inkjet printer with anti-clogging function - Google Patents

Abstract

The application discloses a bagged cement code spraying machine with an anti-blocking function, which relates to the field of code spraying equipment and comprises an ink container, a supply pump, a code spraying gun, a three-way valve and a cleaning liquid container, wherein a liquid spraying port of the supply pump is communicated with a liquid inlet of the code spraying gun, the three-way valve is two-in and one-out, a liquid outlet of the three-way valve is communicated with a liquid pumping port of the supply pump, one liquid inlet of the three-way valve is communicated with an ink suction pipe, one side of the ink suction pipe, which is far away from the three-way valve, extends into the ink container, the other liquid inlet of the three-way valve is communicated with a liquid pumping pipe, and one side of the liquid pumping pipe, which is far away from the three-way valve, extends into the cleaning liquid container. The application has the effects of reducing the coagulation of the ink at the nozzle of the code spraying gun and preventing the ink from being normally sprayed out, and being beneficial to improving the quality of code spraying.

Description

Bagged cement ink jet numbering machine with anti-blocking function

Technical Field

The application relates to the field of code spraying equipment, in particular to a bagged cement code spraying machine with an anti-blocking function.

Background

The ink jet printer is a device which is controlled by software and used for marking products in a non-contact mode. The ink is sprayed through a nozzle to form characters and patterns by using a continuous ink-jet technology or an on-demand ink-jet technology. The ink jet printer has the advantages of high efficiency, flexibility and the like, and is widely applied to the fields of packaging, identification, anti-counterfeiting and the like.

Currently, in cement production, a spray gun of a code spraying machine is arranged on the upper side of a conveyor and is arranged downwards. The filled bagged cement is transported on a conveyor, and in the transportation process, the ink in an ink barrel is pumped by an ink supply pump, the ink is supplied to a spray gun, and the ink is sprayed on the bagged cement on the conveyor through a nozzle of the spray gun.

However, bagged cements cannot be continuously packaged and shipped, and the inkjet printer has a void left idle for a long time. At this time, the ink at the spray gun nozzle of the ink jet printer is easy to coagulate under long-time airing because the ink has higher viscosity. When the ink jet printer is started again, the condensed ink can prevent the subsequent ink from being normally ejected, so that the quality of the code-spraying is poor, and the code-spraying is to be improved.

Disclosure of Invention

In order to solve the problem that in the related art, the code spraying machine is idle for a long time and restarted, and the condensed ink can prevent the normal spraying of the follow-up ink, so that the code spraying quality is poor.

The application provides a bagged cement code spraying machine with an anti-blocking function, which adopts the following technical scheme:

The utility model provides a bagged cement ink jet numbering machine that possesses anti-clogging function, includes ink container, charge pump and spouts the sign indicating number rifle, the hydrojet mouth of charge pump with spout the ink inlet intercommunication of sign indicating number rifle, still include three-way valve and cleaning solution container, the three-way valve is two business turn over one, the liquid outlet of three-way valve and the drawing liquid mouth intercommunication of charge pump, one of them inlet intercommunication of three-way valve has the ink suction pipe, one side that the ink suction pipe deviates from the three-way valve stretches into in the ink container, another inlet intercommunication of three-way valve has the drawing liquid pipe, one side that the drawing liquid pipe deviates from the three-way valve stretches into the cleaning solution container.

By adopting the technical scheme, after the code spraying machine finishes the code spraying operation, the three-way valve can be switched, at the moment, the supply pump can extract the cleaning liquid in the cleaning liquid container and supply the cleaning liquid to the code spraying gun, and the cleaning liquid is used for cleaning the ink flow channel (comprising the nozzle of the code spraying gun) of the code spraying gun. When the code spraying machine performs code spraying operation again, the three-way valve is switched again, and the supply pump can extract the ink in the ink container and supply the ink to the code spraying gun. By the mode, the situation that the ink is condensed at the nozzle of the code spraying gun and normally sprayed out is reduced, and the quality of code spraying is improved.

Preferably, the three-way valve is an electromagnetic three-way valve.

By adopting the technical scheme, the three-way valve can be conveniently switched.

Preferably, the automatic ink-jet printing device further comprises a mounting frame, the ink-jet printing gun is fixed on the mounting frame and arranged downwards, a sliding frame is arranged on the mounting frame in a sliding mode along the horizontal direction, the path of the sliding frame passes through the lower side of the ink-jet printing gun, and a wiping component for wiping an ink-jet opening of the ink-jet printing gun is arranged on the sliding frame.

Through adopting above-mentioned technical scheme, after the ink jet numbering machine accomplished the code spraying operation, on the one hand, the printing ink runner of code spraying gun is cleaned by the cleaning solution of feeding pump extraction, on the other hand, can remove the frame that slides to the downside of code spraying gun, cleans the spout department of code spraying gun by wiping assembly, further reduces printing ink and condenses and the circumstances emergence that blocks printing ink normal blowout in code spraying gun spout department.

Preferably, the wiping component comprises a first belt wheel, a second belt wheel, a belt and wiping cotton, wherein the first belt wheel and the second belt wheel are arranged at intervals in parallel along the horizontal direction, the first belt wheel and the second belt wheel are both rotatably arranged on the sliding frame, the belt is wound on the first belt wheel and the second belt wheel, the part of the belt, which is positioned on the upper sides of the first belt wheel and the second belt wheel, is horizontal, and the wiping cotton is fixed on the belt;

And, the wiping assembly further comprises a driving member for driving the first belt wheel to rotate.

Through adopting above-mentioned technical scheme, when sliding frame and wiping subassembly moved to the downside of spouting a yard rifle, driven first band pulley by the driving piece to drive the belt motion, the cotton that cleans moves along with the belt, and can clean spouting a yard rifle's spout department, thereby reduce the condition emergence that printing ink congeals and blocks printing ink normal blowout in spouting a yard rifle spout department.

Preferably, the sliding frame is provided with a liquid receiving box, the upper side of the liquid receiving box is open, the first belt pulley and the second belt pulley are both positioned in the liquid receiving box, the parts of the belt, which are positioned on the upper sides of the first belt pulley and the second belt pulley, are not lower than the top of the liquid receiving box, and the parts of the belt, which are positioned on the lower sides of the first belt pulley and the second belt pulley, are not higher than the top of the liquid receiving box.

Through adopting above-mentioned technical scheme, on the one hand, when the feeding pump pumps the washing liquid and cleans the printing ink runner that spouts the sign indicating number rifle, the glide frame can remove to spouting a sign indicating number rifle downside with connecing the liquid box, connects the washing liquid that flows out by connecing the liquid box and gets, reduces the condition emergence that the cleaning solution scatters.

On the other hand, the cleaning cotton can be used for injecting water into the liquid receiving box, the lower side of the belt can be in contact with the water, when the driving piece drives the first belt wheel and the belt to move, the cleaning cotton moves along with the belt, the cleaning cotton firstly wipes the nozzle of the code spraying gun and then is immersed into the water, and the ink on the cleaning cotton is dispersed in the water, so that the cleaning performance of the cleaning cotton is maintained, and the cleaning effect of the cleaning cotton on the nozzle of the code spraying gun is improved.

Preferably, a washing plate is fixed on the lower side of the belt in the liquid receiving box, and the washing plate is parallel to the lower side part of the belt.

Through adopting above-mentioned technical scheme, in the practical application, along with the motion of belt, the wiping cotton will contact the water liquid in the liquid receiving box to will be extruded by the wash board, help maintaining the cleanliness of wiping cotton.

Preferably, two ends of the washing plate in the length direction are close to the first belt wheel and the second belt wheel respectively, and guide inclined planes for guiding and compressing the wiping cotton are arranged at two ends of the washing plate in the length direction.

Through adopting above-mentioned technical scheme, guide the cotton by the guide inclined plane to make things convenient for the scrubbing plate to the extrusion operation of cotton to belt one side of wiping, reduce the condition emergence of wiping cotton and scrubbing plate limit angle conflict and damage.

Preferably, the diameter of the first pulley is larger than that of the second pulley, and the tops of the first pulley and the second pulley are in high agreement.

Through adopting above-mentioned technical scheme, the downside of first band pulley will be less than the downside of second band pulley, and the downside part slope of belt upwards sets up, and the wash board is on a parallel with belt downside part and slope upwards sets up to make the in-process of cleaning cotton quilt wash board gradual extrusion, can break away from the aqueous solution gradually, thereby reduce the moisture content of cleaning cotton, guarantee the hydroscopicity of cleaning cotton, and promote the effect of cleaning cotton to spouting the wiping of sign indicating number rifle spout department.

Preferably, the upper side of the washing plate is provided with washing protrusions.

By adopting the technical scheme, the upper side of the washing plate is provided with the washing protrusions, so that the cleaning degree of the washing plate on the wiping cotton is improved.

Preferably, the mounting frame is further provided with a driving assembly for driving the sliding frame to slide;

the driving assembly comprises a screw rod and a driving motor, wherein the axis of the screw rod is arranged along the sliding direction of the sliding frame, the screw rod rotating frame is arranged on the mounting frame, the driving motor is fixed on the mounting frame, and one end of the screw rod is coaxially fixed with the end part of the output shaft of the driving motor.

Through adopting above-mentioned technical scheme, by driving motor drive lead screw rotation to drive the sliding frame slides on the mounting bracket, thereby the control operation to the sliding movement of sliding frame is convenient.

Drawings

Fig. 1 is an axial schematic view of the whole structure of a bagged cement inkjet printer with anti-blocking function according to the present embodiment;

FIG. 2 is a schematic diagram of the driving assembly structure according to the present embodiment;

FIG. 3 is a schematic view showing the structure of the liquid receiving box and the wiping component according to the present embodiment;

fig. 4 is a schematic view of a partial explosion of the structure of the liquid receiving cartridge and the wiper member according to the present embodiment.

The device comprises the following components of a frame 1, a mounting frame 11, a vertical frame 111, a sliding column 12, a cross beam 2, a code spraying gun 21, a supply pump 22, a three-way valve 23, an ink suction pipe 24, an ink container 25, a liquid suction pipe 26, a cleaning liquid container 3, a sliding frame 4, a liquid receiving box 5, a wiping component 51, a first belt wheel 52, a second belt wheel 53, a belt 54, wiping cotton 55, a power motor 6, a driving component 61, a screw rod 62, a driving motor 7, a washing plate 71, a guide inclined plane 72, a washing protrusion 100 and a conveyor.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings.

The embodiment of the application discloses a bagged cement code spraying machine with an anti-blocking function.

Referring to fig. 1 and 2, the bagged cement inkjet printer with the anti-blocking function comprises a mounting frame 1, wherein the mounting frame 1 is portal frame-shaped, and the mounting frame 1 comprises two vertical frames 11 and a cross beam 12 fixed between the upper ends of the two vertical frames 11. The middle part of the beam 12 is fixed with a code spraying gun 2, and the code spraying gun 2 is vertically arranged downwards. The code spraying gun 2 is communicated with a supply pump 21 and a three-way valve 22, and the supply pump 21 and the three-way valve 22 are fixed on the cross beam 12. The liquid spraying port of the feed pump 21 is communicated with the ink inlet of the code spraying gun 2, the three-way valve 22 is a two-in one-out electromagnetic three-way valve 22, the liquid outlet of the three-way valve 22 is communicated with the liquid pumping port of the feed pump 21, one liquid inlet of the three-way valve 22 is communicated with an ink suction pipe 23, one side of the ink suction pipe 23, which is away from the three-way valve 22, stretches into the ink container 24, the other liquid inlet of the three-way valve 22 is communicated with a liquid pumping pipe 25, and one side of the liquid pumping pipe 25, which is away from the three-way valve 22, stretches into the cleaning liquid container 26. The mounting bracket 1 is located the lower side that spouts a yard rifle 2 and slides and be provided with the frame 3 that slides, and the frame 3 that slides has put up and has been connect liquid box 4, is provided with in the liquid box 4 and cleans subassembly 5, and still is provided with the drive assembly 6 that is used for driving the frame 3 that slides on the mounting bracket 1.

In practical use, two uprights 11 of the mounting frame 1 are mounted on two sides of the bagged cement conveyor 100 in the width direction, and the code spraying gun 2 is located right above the conveyor 100. After the code spraying operation of the code spraying machine is completed, the sliding frame 3 is driven by the driving component 6 to slide, the liquid receiving box 4 and the wiping component 5 are moved to the lower side of the code spraying gun 2, then the three-way valve 22 is switched, cleaning liquid in the cleaning liquid container 26 is pumped by the supply pump 21 to clean the ink flow channel of the code spraying gun 2, the cleaning liquid sprayed from the nozzle of the code spraying gun 2 falls into the liquid receiving box 4, and then the nozzle of the code spraying gun 2 is wiped by the wiping component 5, so that the cleaning operation of the nozzle of the code spraying gun 2 is completed.

Referring to fig. 2 and 3, specifically, a sliding column 111 is disposed between two uprights 11, an axis of the sliding column 111 is disposed along a length direction of a cross beam 12, two ends of the sliding column 111 are respectively fixed on the two uprights 11, one sliding column 111 is disposed on two opposite sides of the code spraying gun 2, and heights of the two sliding columns 111 are higher than a bottom side of the code spraying gun 2. The sliding frame 3 is located at the lower side of the code spraying gun 2, the length direction of the sliding frame 3 is arranged along the axial direction of the sliding columns 111, and the two sliding columns 111 penetrate through two sides of the sliding frame 3 in the width direction respectively and are connected with the sliding frame 3 in a sliding mode. The driving assembly 6 comprises a screw rod 61 and a driving motor 62, the screw rod 61 is positioned between the two vertical frames 11, the axial direction of the screw rod 61 is arranged along the axial direction of the sliding column 111, the screw rod 61 is consistent with the height of the sliding column 111, and the screw rod 61 penetrates through the sliding frame 3 and is in threaded connection with the sliding frame 3. The driving motor 62 is fixed to any one of the uprights 11, and an output shaft of the driving motor 62 is coaxially fixed to one end of the screw 61. In practical use, the driving motor 62 drives the screw rod 61 to rotate and drives the sliding frame 3 to slide along the axial direction of the sliding column 111.

Referring to fig. 3 and 4, the middle part of the sliding frame 3 is recessed downwards, the liquid receiving box 4 is fixed at the middle part of the sliding frame 3, and the height of the liquid receiving box 4 is lower than the bottom of the code spraying gun 2. The wiping assembly 5 comprises a first pulley 51, a second pulley 52, a belt 53 and wiping cotton 54. The first belt pulley 51 and the second belt pulley 52 are located in the liquid receiving box 4, the first belt pulley 51 and the second belt pulley 52 are rotatably arranged on the side wall of the liquid receiving box 4, the first belt pulley 51 and the second belt pulley 52 are respectively arranged on two sides of the liquid receiving box 4 in the length direction of the sliding frame 3, and the axes of the first belt pulley 51 and the second belt pulley 52 are arranged along the width direction of the sliding frame 3. The diameter of the first pulley 51 is larger than that of the second pulley 52, and the top portions of the first pulley 51 and the second pulley 52 are identical in height. The belt 53 is wound around the first pulley 51 and the second pulley 52, the portions of the belt 53 on the upper sides of the first pulley 51 and the second pulley 52 are not lower than the top of the liquid receiving box 4, the portions of the belt 53 on the lower sides of the first pulley 51 and the second pulley 52 are not higher than the top of the liquid receiving box 4, and the wiping cotton 54 is fixed on the belt 53. In this embodiment, the wipe 54 can be made of a soft absorbent material such as sponge, cotton, or the like. The wiping component 5 further comprises a driving piece for driving the first belt wheel 51 to rotate, the driving piece is a power motor 55, the power motor 55 is fixed on the outer side of the liquid receiving box 4, and an output shaft of the power motor 55 is coaxially fixed with the first belt wheel 51.

In practical application, the supply pump 21 pumps cleaning liquid to clean the ink flow channel in the code spraying gun 2, the sliding frame 3 and the liquid receiving box 4 can move to the lower side of the code spraying gun 2 to receive the cleaning liquid sprayed by the code spraying gun 2, then the first belt pulley 51 can be driven by the power motor 55 to rotate, the belt 53 and the second belt pulley 52 operate, the wiping cotton 54 moves along with the belt 53 and wipes the liquid spraying opening of the code spraying gun 2, in the process, water liquid can be injected into the liquid receiving box 4, after the wiping cotton 54 wipes the liquid spraying opening of the code spraying gun 2, the wiping cotton 54 can enter the water liquid under the driving of the belt 53, so that the stained ink is dispersed in the water liquid, and the wiping degree of the wiping cotton 54 on the liquid spraying opening of the code spraying gun 2 is ensured.

Since the diameter of the first pulley 51 is larger than that of the second pulley 52, the lower side portion of the belt 53 is disposed obliquely upward. A washing plate 7 is fixed at the lower side of the belt 53 in the liquid receiving box 4, the washing plate 7 is parallel to the lower side of the belt 53, two ends of the washing plate 7 in the length direction are respectively close to the first belt pulley 51 and the second belt pulley 52, and guide inclined planes 71 for guiding and compressing the wiping cotton 54 are arranged at two ends of the washing plate 7 in the length direction. Further, the washing plate 7 is provided at an upper side thereof with washing protrusions 72, and the washing protrusions 72 are provided in series in a longitudinal direction of the washing plate 7. When the wiping cotton 54 moves to the lower side along with the belt 53, the wiping cotton 54 is immersed in the water and is compressed by the washing plate 7 under the guidance of the guiding inclined plane 71, and the ink in the wiping cotton 54 is extruded by the washing protrusions 72 on the washing plate 7 and the wiping cotton 54 is gradually separated from the water along with the driving of the wiping cotton 54 by the belt 53.

In practical application, the driving motor 62 drives the screw rod 61 to rotate and drives the sliding frame 3 to slide along the axial direction of the sliding column 111 so that the liquid receiving box 4 is positioned at the lower side of the code spraying gun 2, at the moment, the three-way valve 22 can be switched, cleaning liquid in the cleaning liquid container 26 is pumped by the supply pump 21 to clean an ink flow channel of the code spraying gun 2, the cleaning liquid sprayed from a nozzle of the code spraying gun 2 falls into the liquid receiving box 4, then the power motor 55 drives the first belt pulley 51 to rotate, the belt 53 and the second belt pulley 52 operate, and the wiping cotton 54 moves along with the belt 53 and wipes a liquid spraying opening of the code spraying gun 2.

The above embodiments are not intended to limit the scope of the application, so that the equivalent changes of the structure, shape and principle of the application are covered by the scope of the application.

Claims (2)

1. A bagged cement inkjet printer with anti-clogging function, comprising an ink container (24), a supply pump (21), and an inkjet gun (2), wherein the ink outlet of the supply pump (21) is connected to the ink inlet of the inkjet gun (2), characterized in that: it further comprises a three-way valve (22) and a cleaning fluid container (26), wherein the three-way valve (22) is a two-inlet-one-outlet type, wherein the outlet of the three-way valve (22) is connected to the suction port of the supply pump (21), wherein one of the inlets of the three-way valve (22) is connected to an ink suction tube (23), wherein the side of the ink suction tube (23) away from the three-way valve (22) extends into the ink container (24), wherein the other inlet of the three-way valve (22) is connected to a suction tube (25), wherein the side of the suction tube (25) away from the three-way valve (22) extends into the cleaning fluid container (26); The three-way valve (22) is an electromagnetic three-way valve (22); It also includes a mounting bracket (1), the inkjet gun (2) is fixed on the mounting bracket (1) and facing downwards, a sliding bracket (3) is slidably mounted on the mounting bracket (1) in the horizontal direction, the path of the sliding bracket (3) passes under the inkjet gun (2), and a wiping component (5) for wiping the inkjet nozzle of the inkjet gun (2) is provided on the sliding bracket (3). The wiping assembly (5) includes a first pulley (51), a second pulley (52), a belt (53), and a wiping cotton (54). The first pulley (51) and the second pulley (52) are arranged parallel to each other in the horizontal direction, and both the first pulley (51) and the second pulley (52) are rotatably mounted on the sliding frame (3). The belt (53) is wound around the first pulley (51) and the second pulley (52). The portion of the belt (53) above the first pulley (51) and the second pulley (52) is horizontal, and the wiping cotton (54) is fixed on the belt (53). Furthermore, the wiping assembly (5) also includes a drive unit for driving the first pulley (51) to rotate; The sliding frame (3) is provided with a liquid receiving box (4), the upper side of the liquid receiving box (4) is open, the first pulley (51) and the second pulley (52) are both located inside the liquid receiving box (4), the part of the belt (53) located above the first pulley (51) and the second pulley (52) is not lower than the top of the liquid receiving box (4), and the part of the belt (53) located below the first pulley (51) and the second pulley (52) is not higher than the top of the liquid receiving box (4); A washing plate (7) is fixed inside the liquid receiving box (4) on the lower side of the belt (53), and the washing plate (7) is parallel to the lower part of the belt (53). The two ends of the washing plate (7) along its length are close to the first pulley (51) and the second pulley (52), and both ends of the washing plate (7) along its length are provided with guide slopes (71) for guiding and compressing the wiping cotton (54). The diameter of the first pulley (51) is larger than the diameter of the second pulley (52), and the top heights of the first pulley (51) and the second pulley (52) are the same; The washing plate (7) has a washing protrusion (72) on its upper side. 2. The bagged cement inkjet printer with anti-clogging function according to claim 1, characterized in that: the mounting frame (1) is further provided with a driving component (6) for driving the sliding frame (3) to slide. The drive assembly (6) includes a lead screw (61) and a drive motor (62). The axis of the lead screw (61) is set along the sliding direction of the sliding frame (3). The lead screw (61) is rotatably mounted on the mounting frame (1). The drive motor (62) is fixed on the mounting frame (1), and one end of the lead screw (61) is coaxially fixed with the end of the output shaft of the drive motor (62).