KR100487165B1 - suction apparatus of digital printing machine - Google Patents

Abstract

The present invention relates to a device for cleaning ink and foreign matters agglomerated in the head of the digital printing machine, the ink or foreign matters agglomerated at the end of the head 26 for ejecting ink during the printing operation of the digital printing machine to the air suction force. It provides a suction device for a digital printing machine that can be automatically removed by the printer to further improve the print quality.

Description

Suction apparatus of digital printing machine

The present invention relates to an apparatus for cleaning ink and foreign matters agglomerated in the head of a digital printing machine, and more specifically, the air suction force to the ink or foreign matters agglomerated at the end of the head for ejecting ink during a printing operation of the digital printing machine. The present invention relates to a suction device for a digital printing machine, which can be removed automatically by means of the automatic printing.

 In general, a digital printing machine is frequently (magenta, M), yellow (yellow, Y), cyan (cyan, C) on a head for ejecting ink by digitizing a desired output signal from a digital controller. It is the latest printing device that draws the pattern that the user wants by using the subtractive mixing technique that supplies three primary colors and paints the colors on the printing paper (messia) to create various colors.

In order to use the above-described subtractive mixing technique, ink having each color is individually received and supplied to a head for scanning each color, so that ink of the color scanned from each head is overlaid so that a new color is exhibited.

1 is a perspective view illustrating main parts of a conventional digital printing machine, and a brief description will be made of a general structure of a conventional digital printing machine with reference to the drawing.

In the conventional digital printing machine, a rail-shaped transfer table 5 is installed on an upper portion of the base 3 supported by both legs 1 contacting the bottom surface, and the head portion 7 is attached to the transfer table 5. The cartridge 9 fixed to one side is coupled to be transportable.

The cartridge 9 is coupled to the carriage belt 20 which is fitted to the guide rollers 10a and 10b provided at both ends of the left and right ends of the transfer table 5 and is moved to the left and right by the driving of the motor 11, and is then transferred to the left and right. It is made to be.

In addition, media (media), which is printing paper, is supplied from a paper feed roller (not shown) installed on the rear surface of the digital printing machine to the upper surface of the base 3, and the movement of the carriage belt 20 from the upper surface of the media is carried out. When the cartridge 9 is reciprocated to the left and right, the ink of the predetermined color is scanned from the head part 7 in conjunction with this, and a printing operation is performed, and the printing roller 12 is printed on the opposite side of the paper feed roller. The media will be rolled up.

The media is a term known in the art, and refers to an object for outputting the ink ejected by the head portion 7 to paper or cloth.

An operating panel 16 covered by the cover 15 is formed on one side of the base 3 so that the user can input a desired signal to print the media in a desired state.

In addition, a plurality of main ink bottles 18 are installed on one side of the leg 1 in a state of being stored in the ink case 14, and an auxiliary ink bottle 17 is provided on the opposite side of the head portion 7 of the cartridge 9. It is installed to receive the ink from the main ink container 18 to supply the ink to the head portion (7).

As shown in FIG. 2, the structure of the head part 7 is formed by the lower case 22 and the upper case 24, and a part of the upper case is cut off to form a wiring hole that becomes a passage for wiring. 25) is formed.

The lower case 22 has a head 26 for ejecting ink of different colors is fixed to the head base 28 in a diagonal direction.

The head 26 is connected to the ink supply line 30 on the upper side to supply the ink stored in the outer tank to the head 26, the injection hole 32 is installed below the head 26 to supply ink to the head Part 7 is sprayed to the lower side.

The head portion 7 moves left and right along the conveyer 5 and the ink ejected through the heads 26 is sprayed onto the media to obtain a desired output.

However, in the process in which the head 26 sprays ink while the head part 7 transfers the left and right reciprocally, the ink is agglomerated at the ends of the heads 26. .

In this way, the ink agglomerated at the end of the head 26 not only degrades the quality of the print job but also hardens with time, preventing the smooth ejection of the ink.

The present invention has been made to solve the above problems, an object of the present invention is to automatically remove the ink or foreign matter agglomerated at the end of the head for ejecting ink during the printing operation of the digital printing machine by the air suction force To provide a suction device for a digital printing machine to further improve the quality of the print job.

The present invention for achieving the above object, the cartridge is moved horizontally along the base, the head is provided on one side of the cartridge is provided with a head for ejecting ink and printing on the media supplied from the feed roller, A digital printing machine comprising: an auxiliary ink barrel provided on an opposite side of the head of the head portion to supply ink; and a main ink cylinder supplying ink to the auxiliary ink cylinder.

The head portion is located at one end of the base for reciprocating transfer, and has a predetermined space therein, the upper portion is formed with a suction hole for suction of the ink agglomerated at the head end of the head portion and the suction tube communicating with the inner space portion at the bottom A suction body fixedly attached, driving means for supporting the suction body while the suction tube penetrates under the suction body, and allowing the suction body to be moved up and down by driving the motor; It provides a suction device for a digital printing machine, characterized in that configured to include a suction unit connected via a hose to provide air suction force.

At this time, the driving means, the housing body having a predetermined space on the inside, and the drive gear which is located inside the housing body and coupled to the rotating shaft of the motor, and the left and right sides of the drive gear respectively engaged in a state The central shaft is engaged with each of the first slave gear and the second slave gear coupled to the upper and lower parts of the housing body via a bearing, respectively, and the rear of the first slave gear and the second slave gear, the central axis is The first and second driven gears, which are respectively coupled to the upper and lower parts of the housing body through a bearing, and have a screw hole having a screw thread in the inner center of each central shaft, and the first and second driven gears It is characterized by consisting of a transfer bolt which is fitted into each screw hole and provided to protrude to the upper portion of the housing body is coupled to the lower portion of the suction body.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a partially exploded perspective view showing a suction device for a digital printing machine according to the present invention, Figure 4 is a front view of the suction device for a digital printing machine according to the present invention, Figure 5 is a suction for a digital printing machine according to the present invention Side view of the device.

And, Figure 6 is a cross-sectional view showing the configuration of the drive means for explaining the operation principle of the suction device in the present invention, Figure 7 is a perspective view showing a state in which the suction device according to the invention is mounted on a digital printing machine.

First, as shown in Figures 3 to 5, the suction device for a digital printing machine according to the present invention is a suction body 50 to suck the ink or foreign matters agglomerated at the end of the head close to the head of the head for ejecting ink And, while driving the motor (96) while supporting the suction body 50, the drive means 90 to move the suction body 50 up and down, and the air suction force to the suction body 50 It consists of a suction unit 150 to provide.

The suction body 50 has a predetermined space therein and has a structure in which the suction hole 56 is formed on the upper part. In this embodiment, the suction body 50 has a cover in which the suction hole 56 is formed ( 52) and the main body 54 having an upper surface cut off while having a predetermined space therein is fixedly coupled to each other, and the suction body 50 moves closer to the head while moving up and down at the lower side of the head part. The cover 52 is preferably made of a soft material such as plastic to prevent any damage to the head.

The plate-shaped base plate 60 is fixedly coupled to a lower portion of the suction body 50, that is, the lower portion of the main body 54, and an inner space portion of the suction body 50 is disposed below the base plate 60. The suction pipe 66 communicating with is fixedly attached.

The suction body 50 of the structure is supported by the drive means 90 is installed in the lower portion is made to be able to move up and down, the drive means 90 has an appearance while having a predetermined space on the inside A housing body 92 to be formed, a plurality of gears are installed in the inner space of the housing body 92 to transmit the rotational force of the motor 96, and the transfer bolt is moved up and down by the transmitted rotational force ( 110).

First, the housing body 92 is formed in a case shape having a predetermined space inside the outer housing 93 and the inner housing 94 forming the lower surface are coupled to each other.

The upper side of the housing body 92, the motor 96 is installed, the rotating shaft is located in the inner space through the upper surface of the housing body 92.

The driving gear 100 is coupled to the rotation shaft of the motor 96 to rotate by driving the motor 96. As shown in FIG. 6, first and second gears are disposed on the left and right sides of the driving gear 100. FIG. The 104 and the second slave gear 105 are installed to be symmetrical while being engaged with the driving gear 100, respectively, and each central axis of the first slave gear 104 and the second slave gear 105 104a and 105a are coupled to the upper and lower portions of the housing body 92 via bearings 116, respectively, so as to be rotatable.

In addition, the rear surfaces of the first slave gear 104 and the second slave gear 105 are installed in a symmetrical manner with the first driven gear 106 and the second driven gear 107 engaged with each other. Each of the central shafts 106a and 107b is coupled to the upper and lower portions of the housing body 92 via bearings, respectively, and has screw threads 106b and 107b having a screw thread at the inner center of each of the central shafts 106a and 107a. It is formed along the longitudinal direction of the center axis 106a, 107a.

The screw bolts 106b and 107b formed in the central axes 106a and 107a of the first driven gear 106 and the second driven gear 107 are fitted with a transfer bolt 110 to the housing body 92. Protruding upward, the male thread corresponding to the thread of the screw holes (106b, 107b) is formed on the outer surface of the transfer bolt 110, the first driven gear 106 and the second driven gear (107) As the rotating bolt 110 is released or tightened from the screw holes 106b and 107b, the conveying bolt 110 can be moved up and down.

The plate-shaped transfer plate 82 is fixedly coupled through the fixing nut 112 at the upper end of each of the transfer bolts 110 protruding to the upper portion of the housing body 92, by the operation of the transfer bolt 110. Up and down movement is made possible.

In this configuration, the transfer plate 82 supports the suction body 50 at an upper portion thereof, and the suction plate 66 attached to the lower portion of the suction body 50 may pass through the transfer plate 82. Through grooves 84 are formed so that the through grooves 95 through which the suction pipe 66 penetrates the outer housing 93 and the inner housing 94 of the housing body 92 are formed on the same vertical line. do.

A plurality of fitting holes 62 are formed along the circumference of the base plate 60 fixedly attached to the lower portion of the suction body 50, and the transfer plate 82 corresponds to the fitting holes 62. Along the perimeter of the plurality of fixing holes 86 are formed.

The support member 70 having a predetermined length is fitted through the fitting hole 62 of the base plate 60, and the outer diameter of the supporting member 70 is smaller than the inner diameter of the fitting hole 62. A support head 72 is formed at an upper end thereof so as to be caught on an upper portion of the base plate 60.

The lower end of the support member 70 is fixed to the fixing hole 86 of the transfer plate 82 by a nut or the like. In this case, each support member 70 is provided with a spring 75. .

Therefore, the suction body 50 is supported while maintaining a predetermined gap through the spring 75 in the upper portion of the transfer plate 82.

At this time, since the size of the fitting hole 62 formed in the base plate 60 is larger than the outer diameter of the support member 70, the suction body 50 is within a predetermined range by the spring 75 provided at the lower portion thereof. In the elastic flow is possible and the spring 75 is to act as a damper to absorb shock.

In addition, the sensor 120 is installed on the upper side of the housing body 92 adjacent to the transfer plate 82 to check the vertical movement position of the transfer plate 82.

The sensing panel 122 is fixedly attached to one side of the upper surface of the transfer plate 82 to be substantially vertical, and is provided with a sensing sensor 124 adjacent to the sensing panel 122 to detect the position of the sensing panel 122. The sensor 124 is attached to the upper and lower pairs on the substrate 126.

Therefore, when the transfer plate 82 is moved up and down, the position of the sensing panel 122 attached thereto is also changed according to the position of the pair of sensing sensors 124 disposed up and down at a predetermined interval. When the detection panel 122 reaches, it detects this.

As a result, the detection sensor 124 detects the position of the sensing panel 122 to check the up and down movement position of the transfer plate 82, and is connected to a separate control circuit driving state of the motor 96, etc. It will provide a standard for controlling.

At this time, the position of the detection sensor 124 is preferably made to be changed by the operator, for this purpose, the substrate 126 to which the pair of detection sensors 124 is attached is supported on the sensor position control table 130 Made of structure.

The inner side of the sensor position control stand 130 is inserted into the conveying piece 134, the tightening hole 135 is formed so as to be movable, the adjustment in the state that the elastic spring 138 is inserted into the upper portion of the conveying piece 134 Screw 132 is fitted from the outside is fitted into the tightening hole 135.

Therefore, when the adjusting screw 132 is tightened, the conveying piece 134 moves upward while compressing the elastic spring 138 in the inner space of the sensor position control stand 130, and loosens the adjusting screw 132. When the feeding piece 134 is pushed by the elastic spring 138 is moved downward.

In addition, a plurality of coupling protrusions 139 are extended to the outside of the transfer piece 134, and the substrate 126 having the sensor 124 attached thereto is fixedly coupled to the coupling protrusion 139. As the substrate 126 is moved as the 134 moves, the position of the detection sensor 124 can be adjusted.

As described above, the suction body 50 is attached to the suction pipe 66 is coupled to the drive means 90 is provided with a transfer bolt 110 made to be moved up and down by the driving of the motor 96. The suction pipe 66 is placed through the driving means 90, and the end of the suction pipe 66 is connected to the suction part 150 providing air suction force through the suction hoses 145a and 145b. do.

In this case, the ink container 140 is installed at the lower end of the suction pipe 66 so as to be positioned on the same vertical line as the suction pipe 66 through the first suction hose 145a, and the ink container 140 is formed again. It is connected to the suction unit 150 through the two suction hoses (145b).

Hereinafter, the operation and effects of the present invention will be described in detail.

As described above, the suction device for a digital printing machine according to the present invention has a predetermined space therein, the suction hole 56 is formed in the upper portion and the suction pipe 66 is fixedly attached to the inner space portion in the lower portion. A suction means (50), a driving means (90) installed at a lower portion of the suction body (50) to move the suction body (50) up and down by driving a motor (96), and the suction pipe (66). It is composed of a suction unit 150 connected to provide an air suction force.

As shown in FIG. 7, the suction device of the present invention configured as described above is preferably sealed by a rear cover 15 installed at one end of the base 3 to reciprocate the head of the digital printing machine. Do.

Therefore, the head unit 7 periodically maintains the suction unit according to the present invention according to a time or a reciprocating frequency set by a separate control circuit while the head unit 7 reciprocates and prints to the media. It moves to one end of the installed base (3).

Then, as the motor 96 is driven, the drive gear 100 coupled to the rotating shaft rotates, and the first slave gear 104 and the second slave gear 105 rotate continuously, and each of the slave gears is rotated. The first driven gear 106 and the second driven gear 107 meshed with the 104 and 105 are also rotated.

When the first driven gear 106 and the second driven gear 107 rotates, the transfer bolt 110 fitted into the screw holes 106b and 107b is tightened or released, and the upper and lower portions of the housing body 92 are moved upward and downward. Will move down.

At this time, when the head portion 7 reaches the upper portion of the suction device, the transfer bolt 110 is released so as to move upward and the transfer plate 82 is controlled to be raised to the top.

When the transfer plate 82 is raised to the upper portion, the suction body 50 in which the suction hole 56 is formed is located at the bottom of the head in proximity to the head portion 7.

At this time, when the suction hole 56 of the suction body 50 is correctly positioned under the head of the head portion 7 by the air suction force supplied from the suction unit 150 along the suction hoses (145a, 145b) Inhaled ink or foreign matter agglomerated at the end of the head, the sucked ink or foreign matter is collected in the ink container 140 by its own weight in the process of moving through the suction pipe 66 and the first suction hose 145a. do.

When the ink suction process is completed as described above, the operation of the suction unit 150 is completed and the motor 96 is rotated to the opposite side so that the suction body 50 moves downward.

When the suction body 50 bumps against each other while the suction body 50 rises close to the head for the ink suction operation as described above, the spring supported on the lower portion of the suction body 50 absorbs the impact, so the efficiency of the operation And stability.

As described above, the present invention, by automatically cleaning the head for ejecting ink in the printing process of the digital printing machine by the air suction force to prevent the ink from agglomeration or foreign matter stuck to the end of the head print quality There is an effect to further improve.

1 is a perspective view of main parts of a conventional digital printing machine,

2 is an exploded perspective view showing the head of FIG. 1;

3 is a partially exploded perspective view showing a suction device for a digital printing machine according to the present invention;

4 is a front view of a suction device for a digital printing machine according to the present invention;

5 is a side view of a suction device for a digital printing machine according to the present invention;

Figure 6 is a cross-sectional view showing the configuration of the drive means for explaining the operation principle of the suction device in the present invention,

Figure 7 is a perspective view showing a state in which the suction device according to the invention mounted on a digital printing machine.

* Description of the symbols for the main parts of the drawings *

  3: base 7: head portion

 26: head 50: suction body

 56: suction hole 60: base plate

 66: suction pipe 70: support member

 75: spring 82: feed plate

 90: drive means 92: housing body

 96: motor 100: drive gear

104: first slave gear 105: second slave gear

106: first driven gear 107: second driven gear

110: transfer bolt 120: detection sensor

Claims (5)

A cartridge moving horizontally along the base, a head mounted on one side of the cartridge and discharging ink to be printed on the media supplied from the paper feed roller, and installed on the opposite side of the head to supply ink. An auxiliary ink container, a main ink container for supplying ink to the auxiliary ink container, and the head portion are located at one end of the base for reciprocating transfer, and the ink gathered at the head end of the head portion at the top while having a predetermined space therein is sucked in. A suction body having a suction hole formed therein and a suction tube fixedly attached to a lower portion of the suction body, and supporting the suction body while the suction tube penetrates under the suction body, and the suction body is driven by a motor. Drive means for moving up and down, and the suction pipe is connected to the suction pipe via the air suction force In the digital printing machine consisting of a suction unit for providing a, The drive means, and the housing body to form an appearance having a predetermined space on the inside, A drive gear coupled to the rotating shaft of the motor while being located inside the housing body; A first slave gear and a second slave gear coupled to the left and right sides of the driving gear, respectively, and the central axis of which is coupled to the upper and lower parts of the housing body via a bearing; A first driven gear engaged with each rear side of the first slave gear and the second slave gear, the central shaft of which is coupled to the upper and lower parts of the housing body via a bearing, and a screw hole having a screw thread in the inner central portion of each central shaft; Gears and second driven gears, Suction device for a digital printing machine, characterized in that consisting of a conveying bolt which is fitted to each of the screw holes of the first driven gear and the second driven gear protruding to the upper portion of the housing body and coupled to the lower portion of the suction body. delete delete The method of claim 1, A base plate is fixedly attached to the lower portion of the suction body, and a transfer plate is fixedly coupled to the upper end of the transfer bolt, and a plurality of support members are fitted along the base plate and springs are provided to each support member penetrating the base plate. The fitting is provided, the end of each support member fitted with the spring is suction device for a digital printing machine, characterized in that fixedly coupled on the transfer plate. The method of claim 1, A sensing panel is vertically fixed to one side of an upper surface of the transfer plate, and a sensing sensor unit for checking a position of the sensing plate to check the vertical movement position of the transfer plate by sensing the position of the sensing panel is adjacent to the transfer plate and is located on the upper side of the housing body. Suction device for a digital printing machine, characterized in that installed in.