KR102325579B1 - Output media stabilization device for hybrid inkjet printers - Google Patents

Abstract

The present invention relates to an output medium stabilization device for a hybrid inkjet printer, comprising a moving piece for flattening; an installation frame for flattening; a drive motor for flattening; a drive shaft for flattening; a driven shaft for flattening; a rack gear unit for flattening; a pressing roller part for flattening. When printing is performed while inputting the output medium to the input unit and moving the same to the output unit, the output medium stabilization device is configured to pressurize and flat the output medium to be corresponding to the thickness. Since the printing is performed on the surface of the output medium while the output medium is flattened and transported, the defect rate can be remarkably lowered.

Description

Output media stabilization device for hybrid inkjet printers

The present invention relates to an output medium stabilizing apparatus for a hybrid inkjet printer, and more particularly, to pressurize and flatten the output medium to correspond to the thickness when printing is performed while the output medium is inputted to the input unit and discharged to the output unit side. It relates to an output medium stabilizing apparatus for a hybrid inkjet printer so that the defect rate can be remarkably lowered because the print is made on the surface of the output medium while the output medium is planarized and transported.

Recently, with the development of printers, it has become possible to output not only paper or thin plastic paper, which are conventional general output media, but also various output media such as wooden boards, glass plates, and slabs.

Such technological advances have been made by using UV inks in printers or printers. Because UV ink has a property of being fixed by simply irradiating UV light after it is sprayed on the output medium, it does not cover the target output medium.

In particular, interest in printing on a hard plate-shaped output medium rather than the conventional flexible paper has increased.

The reason is that, in the past, outdoor signage, interior and exterior materials, etc. depended on actual printing by methods such as silk screen, so the process was complicated, time and cost consuming, and satisfaction with the printed state was low.

Accordingly, as the output medium is diversified, the thickness of the output medium is also diversified.

Accordingly, a flat-type plotter has been developed for printing on a plate-shaped output medium.

However, in the flat type plotter as described above, a vacuum adsorption method is used to fix the medium. The transfer of the output medium while receiving the adsorption force by the suction plate for vacuum adsorption as described above is between the suction plate and the output medium. It is not preferable because frictional force exists in the

If, whenever the output medium is transferred, the vacuum adsorption is released and the vacuum adsorption is started again after the transfer, inconvenience and time required for output are increased.

Therefore, it is necessary to fix the output medium on the suction plate and output the desired image to the output medium while the head moves in a plane on a horizontal plane. , the manufacturing cost of the printer will also increase.

Therefore, there is a need for technical development of a printer having a means for transferring an output medium on the suction plate to be suitable for a printer having a head that only reciprocates linearly.

In consideration of this point, a flat bed printer has been proposed in Patent Application No. 10-2005-0013291.

Looking at the conventional flat bed printer, a bed having a communication path therein and an air inlet on the upper surface, a frame integrally fixed with the bed to support the bed, and a roller bracket integrally fixed with the frame, and A driving roller and a driven roller installed in the front or rear of the bed, a driving means for applying a torque to the driving roller, rotates over the conveying roller, and the lower surface passes over the bed, breathable tissue A conveying belt formed as A box-shaped upper plate having a plurality of air intakes and an open top, a communication path is formed on one side, and a plurality of bulkheads are formed to form an open path at one end, and an on/off valve is provided in the open path of the bulkhead, respectively. installed, and the opening/closing valve is configured to include a housing formed to communicate with the communication path.

However, in the conventional flat bed printer configured as described above, by installing a porous transport belt on a bed capable of vacuum adsorption due to the above-described configuration, it is possible to transport the output medium in an adsorbed state, so that the head is fixed. When it is necessary to transfer the output medium in a flatbed printer of There is a disadvantage in that a print defect is inevitable because this is done.

Patent Application No. 10-2005-0013291, filing date; February 17, 2005

Accordingly, the present invention has been devised to solve the above problems, and when printing is made while inputting the output medium to the input unit and moving and discharging it to the output unit, the output medium is pressurized and flattened to correspond to the thickness, It is an object of the present invention to provide an output medium stabilizing apparatus for a hybrid inkjet printer so that the defect rate can be remarkably lowered because the printing is performed on the surface of the output medium while the output medium is planarized and transported.

Other objects of the present invention will become apparent as the technology progresses.

The present invention for achieving the above object is wound on a frame 110 provided to be installed horizontally on a floor surface, and a roller for conveying spaced apart from each other rotating by driving a driving motor on the upper portion of the frame 110, The transfer mesh belt 120 provided to transfer the output medium 10 that is input for printing on the surface, and the transfer mesh belt 120 by being installed under the transfer mesh belt 120 is positioned between the transfer roller and a control unit A vacuum adsorption unit 125 provided so as to vacuum adsorb the output medium transferred by the driving of the vacuum generator driven by the control of and one end and the other end are fixedly installed at the front and rear ends of the frame 110 Installed on the rail bar 130 for the head and the rail bar 130 for the head, which is provided so as to be partitionable into the input part and the discharge part of the output medium as it is installed to be spaced apart in the longitudinal direction on the upper surface of the mesh belt 120 for transport by the The frame ( 110) A device for stabilizing an output medium being transported while being positioned on one side of the lower side of the rail bar 130 for the head by being installed on the upper surface so as to be able to elevate and descend, while printing is made on the surface of the output medium, the upper surface of the frame 110 It is installed so that it can ascend and descend on the surface and pressurize the upper surface of the output medium being transported to correspond to the thickness while being printed on the surface by the head unit 140 to flatten the output medium so that printing on the surface of the output medium can be stably performed. One end and the other end are connected to one side of each of the flat fixing pieces 171 fixedly installed on both sides of the upper surface of the frame 110 through a pair of LM guides 172, and are provided to be movable in the up and down directions. The piece 173 and the flat installation frame 174 having one end and the other end fixed to each one surface of the moving piece 173 for flattening, and the flat installation frame 174 fixed to one surface of the control unit respond to control A flat drive motor 175 provided with a flat reducer 175a so as to be drivable, and one end connected to the flat speed reducer 175a, the other end has a flat drive gear unit 176a for power transmission One end is geared to the drive shaft 176 for flatness which is formed and provided, and the drive gear portion 176a for flatness of the drive shaft 176 for flattening, and the other end penetrates through the moving piece 173 for flattening so as to be rotatable. Installed, the flat driven shaft 177 is provided with a flat driven gear portion 177a formed at the end, and the flat driven shaft 177 is fixedly installed on each surface of the flat fixed piece 171 ( 178) and one end of the flattening installation frame 174 is fixed at regular intervals on one surface, and the other end is provided so as to be able to press the upper surface of the inputted output medium corresponding to the lowering of the flattening moving piece 173 It is characterized in that it includes a pressure roller portion 179 for flat.

As described above, according to the output medium stabilization apparatus for a hybrid inkjet printer according to the present invention, when printing is performed while the output medium is inputted to the input unit and moved to the output unit, the output medium is pressed and flattened to correspond to the thickness. By configuring, since the printing is made on the surface of the output medium while the output medium is flattened and transported, there is an effect that the defect rate can be significantly lowered.

1 is a perspective view illustrating a state in which an output medium stabilizing device for a hybrid inkjet printer according to the present invention is installed in a hybrid inkjet printer.
2 is a plan view illustrating a state in which the output medium stabilizing device for a hybrid inkjet printer according to the present invention is installed in the hybrid inkjet printer.
3 is a side view illustrating a state in which the output medium stabilizing device for a hybrid inkjet printer according to the present invention is installed in the hybrid inkjet printer.
4 is a side cross-sectional view illustrating a state in which the output medium stabilizing device for a hybrid inkjet printer according to the present invention is installed in the hybrid inkjet printer.
FIG. 5 is an enlarged view of part “A” of FIG. 2 .
FIG. 6 is an enlarged view of part "B" of FIG. 1 .
7 is a view showing a power transmission part in a pressurizing means for input of a hybrid inkjet printer equipped with an output medium stabilizing device for a hybrid inkjet printer according to the present invention.
8 is a perspective view illustrating a pressurizing roller unit for input in a pressurizing means for input of a hybrid inkjet printer equipped with an output medium stabilizing device for a hybrid inkjet printer according to the present invention.
9 is an enlarged view illustrating a part of an output medium stabilizing apparatus for a hybrid inkjet printer according to the present invention.
10 is a view showing a power transmission part of the output medium stabilizing apparatus for a hybrid inkjet printer according to the present invention.
11 is a perspective view illustrating a flat press roller of the output medium stabilizing device for a hybrid inkjet printer according to the present invention.

Hereinafter, an embodiment of the output medium stabilizing apparatus for a hybrid inkjet printer according to the present invention will be described in detail.

First, it should be noted that in the drawings, the same components or parts are denoted by the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted so as not to obscure the gist of the present invention.

As shown, the present invention is a frame 110 provided so as to be installed horizontally on the bottom surface, and a roller ( A transfer mesh belt 120 provided to transfer an output medium which is wound on the surface to be printed on the surface, and the transfer mesh belt 120 is installed under the transfer roller between the transfer rollers. A vacuum adsorption unit 125 provided to vacuum adsorb an output medium transferred by driving a vacuum generating unit (not shown) that is located in and driven under the control of the control unit, and the front of the frame 110; A rail bar 130 for a head provided so that one end and the other end are fixedly installed at the rear end so as to be partitionable into an input part and an output part of the output medium as they are installed to be spaced apart in the longitudinal direction on the upper surface of the mesh belt 120 for transport, A head part ( 140), by being installed on the upper surface of the frame 110 of the hybrid inkjet printer so as to be raised and lowered, it is located on one side of the lower side of the rail bar 130 for the head to stabilize the output medium being transported while printing is made on the surface of the output medium. As a device for this purpose, it is installed on the upper surface of the frame 110 so as to be raised and lowered, and while being printed on the surface by the head unit 140, pressurizes the upper surface of the output medium being transported to correspond to the thickness to flatten the output medium and output the output. One end and the other end are connected via a pair of LM guides 172 to one side of each of the flat fixing pieces 171 fixedly installed on both sides of the upper surface of the frame 110 so that printing can be performed stably on the surface of the medium. A moving piece 173 for flattening provided to be movable in the direction, one end and the other end fixed to each side of the moving piece 173 for flattening, a flattening installation frame 174, and the flattening installation frame (174) is installed fixed on one side A flat drive motor 175 provided with a flat reducer 175a to be drivable corresponding to the control of the control unit, and one end is connected to the flat speed reducer 175a, and the other end is a flat drive for power transmission One end is geared to the flat drive shaft 176 provided with a fisherman 176a formed therein, and the flat drive gear portion 176a of the flat drive shaft 176 is geared, and the other end is to the flat moving piece 173. Doedoe installed rotatably through, the flat driven shaft 177 provided with a flat driven gear portion 177a formed at the end, and fixedly installed on each surface of the flattening fixing piece 171 to make the flat The flat driven gear portion 177a for flattening of the driven shaft 177 is geared and the flattening moving piece 173 is provided to enable elevating and lowering corresponding to the drive motor 175 for flattening. One end is fixed at regular intervals to one surface of the rack gear unit 178 for flattening and the installation frame 174 for flattening, and the other end is the upper surface of the output medium input corresponding to the lowering of the moving piece 173 for flattening. It is composed of a flat pressing roller portion 179 provided to be pressurized.

Here, the flat pressing roller portion 179 is a flat pressing roller fixing piece 1791a fixed to one surface of the flat installation frame 174 via a plurality of bolts and nuts as a medium, and the flat pressing roller portion 179 is formed. A flat pressure roller installation member 1791 composed of a flat pressure roller bending piece 1791b that is bent and connected in one direction from both ends of the roller fixing piece, and a flat pressure roller bending piece of the flat pressure roller installation member 1791 ( 1791b), the intermediate portion is rotatably connected via the bar for rotation 1792, and the inner surface is formed with a flattening operation piece 1793a bent in the upward direction. , The input pressing means 160 to be described later so as to be rotatably installed at one end of the flattening pressure roller rotating member 1793 to flatten the upper surface of the inputted output medium corresponding to the descending of the flattening moving piece. A flat pressure roller 1794 provided with a width greater than the width of the input pressure roller 1693, and a rotation locking bar 1795 installed at the other end of the flattening pressure roller rotation member 1793 at both ends. One end is locked, and the other end is respectively caught and fixed at both ends of the locking bar 1796 fixed to the flattening pressure roller bending piece 1791b of the flattening pressure roller installation member 1791 to rotate the flattening pressure roller A pair of flattening tension springs 1797 provided to always pull the other end of the member 1793, and the flattening pressure roller bending piece 1791b of the flattening pressure roller installation member 1791 is fixed to the inner surface Installed and operated by the flattening actuating piece 1793a approaches to correspond to the upward rotation of one end of the flattening pressure roller rotating member 1793, and the flattening by applying an actuation signal to the controller side It consists of a sensor unit 1798 for input that is provided to set the initial pressing force of the pressing roller 1794.

On the other hand, the setting member 150 is located on the input unit by being installed so as to be able to elevate and descend on the upper surface of the frame 110 of the hybrid inkjet printer, and set one end of the output medium to be inputted while constantly setting one end to be able to respond to stretching by heat. ) is provided with a setting member 150, and is positioned in front of the setting member 150 by being installed so as to be able to ascend and descend on the upper surface of the frame 110, corresponding to the control of the control unit by pressing a foot switch (not shown) Pressing means 160 for input is provided so that the output medium can be stably input before the output medium enters the upper part of the vacuum adsorption unit 125 by pressing the upper surface of the output medium according to the thickness of the output medium. , The frame 110 is located on the discharge part by being installed so as to be able to ascend and descend on the upper surface, and while printing is completed on the surface of the output medium, it is output after passing through the vacuum adsorption part 125 until the discharge is completed. Pressurizing means 180 for discharging is further provided so that the upper surface of the medium can be stably discharged by pressing it corresponding to the thickness.

In addition, the input unit and the discharge unit of the hybrid inkjet printer are configured to simultaneously input and discharge two output media to the left and right after printing on the surface of the inputted output media at the same time.

In addition, one end and the other end are connected to the input operation cylinder installed on both sides of the upper surface of the frame 110 to be positioned between the setting member 150 and the flat pressing means 160, so that the input operation cylinder is driven. Correspondingly, a tension roller 200 for input is further provided so that the output medium is input while always maintaining a tension state as the output medium is raised and lowered correspondingly and pressurizes the input medium to minimize defects during printing.

And, one end and the other end are connected to the working cylinder for discharging installed on both sides of the upper surface of the frame 110 so as to be located on one side of the discharging pressurizing means 180 provided in the input unit, and the discharging operating cylinder is driven. A tension roller 210 for discharge is further provided so that the output medium is always discharged while maintaining a tension state by pressing the output medium to be raised and lowered.

On the other hand, prior to explaining the output medium stabilization apparatus for a hybrid inkjet printer according to the present invention, looking at the configuration of the hybrid inkjet printer, the frame 110, the transfer mesh belt 120, and the vacuum adsorption unit ( 125), the rail bar 130 for the head, and the head portion 140 are well-known, and detailed descriptions thereof will be omitted, and below, the setting member 150, the input pressing means 160, and the With reference to the accompanying drawings with respect to the pressurizing means 180 for discharge will be described in more detail as follows.

First, the setting member 150 of the hybrid inkjet printer according to the present invention is positioned in the input unit by being installed so as to be able to ascend and descend on the upper surface of the frame 110 to set one end of the output medium to be inputted. It is provided so as to be able to respond to stretching by heat.

That is, the setting member 150 is fixedly installed on both sides of the upper surface of the frame 110 , a concave-shaped groove 151a is formed on each one surface, and the upper surface is provided to be able to be opened and closed by the cover part through the hinge part, respectively. One end and the other end are respectively inserted into the housing 153 for setting and the groove 151a of the housing 153 for setting, and one end both sides of the groove 151a receive both inner side surfaces of the groove 151a and are engaged with the positioning groove. A fixed piece (152b) for setting with (152a) is provided, and the other end is a movable piece (152c) formed in a flat section so as to be movable through the groove (151a) in accordance with the heat generated when the hybrid inkjet printer is used for a long time. The setting bar 152 provided with this and the setting housing 151 are fixedly installed, respectively, in the lower part of the fixing piece 152b and the moving piece 152c for the setting of the setting bar 152, respectively. It is positioned and is driven by the control of the control unit to elevate and lower the setting bar 152, and it is composed of a setting cylinder 153 equipped with a setting piston 153a, respectively.

The input pressing means 160 is positioned in front of the setting member 150 by being installed so that one end and the other end are elevating and lowering on the fixed piece for input installed on both sides of the upper surface of the frame 110, It is provided so that the output medium can be stably input by making it possible to pressurize the upper surface of the output medium according to the operation corresponding to the control by varying the pressing force corresponding to the thin or thick output medium.

That is, the input pressing means 160 is connected to one side of each of the input fixing pieces 161 fixed on both sides of the upper surface of the frame 110 and the other end is connected via a pair of LM guides 162 to the upper surface. , A moving piece 163 for input that is provided to be movable in the downward direction, and an installation frame 164 for putting in which one end and the other end are fixed to each side of the moving piece 163 for input, and for the input A driving motor 165 for input, which is fixedly installed on one surface of the installation frame 164 and provided with a reducer 165a to be drivable corresponding to the control of the control unit, and one end connected to the reducer 165a, the other end has power One end is geared to the input drive shaft 166 provided with the input drive gear part 166a for delivery, and the input drive gear part 166a of the input drive shaft 166 is geared, and the other end is for the input Doedoe installed rotatably through the moving piece 163, the driven gear portion 167a for input is formed at the end of the driven shaft 167 for input, and each one surface of the fixed piece 161 for input It is fixedly installed on the driven shaft 167 for input and is gear-engaged with the driven gear part 167a for the input, and the moving piece 163 for input wins to correspond to the drive motor 165 for input, One end is fixed at regular intervals to one surface of the input rack gear unit 168 provided to be lowered and the input installation frame 164, and the other end corresponds to the lowering of the input moving piece 163. It is composed of a pressurizing roller unit 169 provided so as to pressurize the upper surface of the inputted output medium.

Here, the input pressure roller unit 169 has a pressing roller fixing piece 1691a fixed to one surface of the input installation frame 164 through a plurality of bolts and nuts as a medium, and the input pressure roller unit 169 is formed. A pressing roller installation member 1691 for input consisting of a pressing roller bending piece 1691b for input that is bent and connected in one direction and a downward direction, respectively, from both ends of the roller fixing piece 1691a, and the input pressure roller installation member 1691 The middle part is rotatably connected to the downwardly bent portion of the rotation pin via a rotation pin, and an upwardly bent input operation piece 1692a is formed on the inner side of the input pressure roller rotation member 1692 and , The input pressure roller 1693 is rotatably installed at one end of the input pressure roller rotating member 1692 to pressurize the upper surface of the input output medium corresponding to the lowering of the input moving piece 163. ), and one end is fixed to the first engaging bar 1694 for input installed at the other end of the input pressure roller rotating member 1692, and the other end is a one-way bent portion of the input pressure roller installation member 1691 The input tension spring 1696 provided so as to always pull the other end of the input pressure roller rotating member 1692 by being caught on the second locking bar 1695 for input fixed to the input, and the input pressure It is fixedly installed on the inner surface of the one-way bent part of the roller installation member 1691 to correspond to the upward rotation of one end of the input pressure roller rotating member 1692. By the approaching operation piece 1692a It operates and consists of an input sensor unit 1697 provided to set the initial pressing force of the input pressure roller 1693 by applying an operation signal to the controller side.

That is, since the control unit controls the driving time of the driving motor for input to correspond to the thickness of the output medium input to the input unit, the thick output medium is further pressed by the input pressure roller, and the output medium with a thin thickness The medium is configured to be pressurized less so that the output medium can be stably fed in accordance with the thickness of the output medium.

The discharging pressurizing means 180 is located in the discharging part by being installed so that one end and the other end can ascend and descend on the discharging fixing pieces installed on both sides of the upper surface of the frame 110 so that printing is possible on the surface of the output medium. It is provided so that the output medium can be stably discharged by pressing the upper surface of the output medium corresponding to the thickness until it is completed and discharged. do.

When the output medium stabilization device for a hybrid inkjet printer according to the present invention configured as described above is installed in a hybrid inkjet printer to print an output medium having a thickness of 0.2 mm, first, as shown in the accompanying drawings 1 to 11, The content to be printed and the thickness of the output medium are input through the display unit of the control unit.

Thereafter, one end of the output medium is put into the input unit, and the setting bar 152 of the setting member 150 is brought into contact with the front surface to set.

When the output medium is set on the setting bar 152 of the setting member 150 as described above, the foot switch is pressed with the foot.

Since the foot switch is pressed, the input driving motor 165 of the input pressing means 160 is driven under the control of the controller.

By the driving of the input driving motor 165, the input moving piece 163 moves downward, and the input pressurizing roller unit 169 installed at regular intervals on the front surface of the input installation frame 164 is pressed. A roller 1693 is positioned on the upper surface of the output medium.

At this time, if the input sensor unit 1697 detects the input operation piece 1692a while the input pressure roller 1693 is located on the upper surface of the output medium, by applying it to the controller side, the control of the controller By the input drive motor 165 is stopped.

At this time, the stop of the input drive motor 165 is a state in which the output medium is not input, and when the input drive motor 165 is stopped, the controller controls the input drive motor 165 to correspond to the pre-input thickness of the output medium. (165) is driven for several seconds.

Accordingly, the input pressure roller 1693 presses the upper surface of the output medium.

When the input pressure roller 1693 presses the upper surface of the output medium as described above, the setting bar 152 of the setting member 150 rises under the control of the controller.

When the setting bar 152 of the setting member 150 rises, the mesh belt 120 for transport is moved to correspond to the driving of the driving motor under the control of the control unit, and thereby the output medium is the rail for the head. The bar 130 is transferred to the lower side.

When the output medium is transferred to the lower side of the rail bar 130 for the head, the flat driving motor 175 of the flat pressing means 170 is driven under the control of the controller.

The flat press roller 1794 of the flat press roller unit 179 on the surface of the output medium transferred in the same order as the operation order of the input pressurizing means 160 by driving the flat driving motor 175 will pressurize

As a result, the output medium is transferred to the discharge unit while being flattened, and while the output medium is transferred to the discharge unit, the head unit 140 linearly reciprocates along the rail bar 130 for the head under the control of the control unit while printing on the surface of the output medium. will do

When the output medium is transferred to the discharge unit as described above, the pressing means 180 for discharge presses the surface of the transferred output medium in the same order as the operation sequence of the input pressing means 160 by the control unit.

As a result, printing is completed on the surface while the output medium is stably transferred.

As described above, since the printing is performed while stably moving the output medium by the pressing means for input, the pressing means for flattening, and the pressing means for discharging, which are installed on the upper surface of the mesh belt for transfer, the defect rate according to the printing can be reduced.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

100 ; hybrid inkjet printer 110 ; frame
120 ; Transport mesh belt 130 ; rail bar for head
140 ; head 150; setting member
160 ; Pressurizing means for input 170 ; Pressing means for flat
180 ; pressurizing means for discharging 200 ; Tension roller for input
210; Tension roller for discharge

Claims (2)

The frame 110 provided so as to be installed horizontally on the bottom surface, and the output medium which is wound on the transport rollers spaced apart from each other and rotated by the driving of a driving motor on the upper part of the frame 110 to print on the surface. The transfer mesh belt 120 provided to transfer, and the transfer mesh belt 120 by being installed under the transfer rollers are positioned between the transfer rollers and transferred by the driving of the vacuum generator driven under the control of the control unit. A vacuum adsorption unit 125 provided to vacuum adsorb the output medium, and one end and the other end are fixedly installed at the front and rear ends of the frame 110 in the longitudinal direction on the upper surface of the mesh belt 120 for transport. The rail bar 130 for the head, which is provided so as to be partitionable into the input part and the discharge part of the output medium according to the installation spaced apart, and the rail bar 130 for the head installed in the information inputted through the display unit of the control unit 10 Correspondingly, by being installed on the upper surface of the frame 110 of the hybrid inkjet printer including the head unit 140 that is printably provided on the surface of the output medium while linearly reciprocating along the rail bar 130 for the head. A device for stabilizing the output medium being transported while printing is made on the surface of the output medium located on one side of the lower side of the rail bar 130 for the head,
It is installed on the upper surface of the frame 110 so as to be raised and lowered and is printed on the surface by the head unit 140 while pressing the upper surface of the output medium being transported to correspond to the thickness to flatten the output medium and print on the surface of the output medium. One end and the other end are connected to one side of each of the flat fixing pieces 171 fixed on both sides of the upper surface of the frame 110 through a pair of LM guides 172 so that the frame 110 can be moved up and down so as to be stable. and a moving piece 173 for flattening provided to do so;
a flat installation frame 174 having one end and the other end fixed to each surface of the flat moving piece 173;
a flat drive motor 175 which is fixedly installed on one surface of the flat installation frame 174 and is provided with a flat reducer 175a to be driven corresponding to the control of the controller;
a flat drive shaft 176 having one end connected to the flat speed reducer 175a, and a flat drive gear portion 176a formed at the other end for power transmission;
One end is geared to the flat driving gear portion 176a of the flat drive shaft 176, and the other end is rotatably installed through the flattening moving piece 173, and the flat driven gear portion ( 177a) is formed and provided with a flat driven shaft 177 and;
It is fixedly installed on each side of the flattening piece 171 and is gear-engaged with the flat driven gear portion 177a of the flat driven shaft 177 to correspond to the drive of the flattening drive motor 175. a rack gear unit 178 for flattening provided so that the moving piece 173 for flattening can ascend and descend;
One end is fixed to one surface of the flat installation frame 174 at regular intervals, and the other end is a flattening press roller provided to press the upper surface of the inputted output medium corresponding to the lowering of the flattening moving piece 173. part 179
Output medium stabilization device for hybrid inkjet printer, characterized in that it comprises.
According to claim 1,
The flat pressing roller portion 179 is a flat pressing roller fixing piece (1791a) fixed to one surface of the flat installation frame 174 via a plurality of bolts and nuts as a medium, and the flat pressing roller fixing piece is formed. A flat pressure roller installation member 1791 composed of a flat pressure roller bending piece 1791b that is bent and connected in one direction from both ends, and a flat pressure roller bending piece 1791b of the flat pressure roller installation member 1791 The middle portion is rotatably connected via the rotation bar 1792, and the flattening roller rotation member 1793 is provided with an upwardly bent flattening operation piece 1793a formed on the inner surface thereof, and the flat surface A pressing roller 1794 for flattening provided to be rotatably installed at one end of the pressing roller rotating member 1793 for flattening while pressing the upper surface of the inputted output medium corresponding to the descending of the flattening moving piece 1794, and the Each end is locked and fixed to both ends of the bar 1795 for rotation provided at the other end of the pressing roller rotation member 1793 for flattening, and the other end is the flat pressing roller bending piece 1791b of the pressing roller installation member 1791 for flattening. A pair of tension springs for flattening (1797) that are respectively caught and fixed at both ends of the fixed locking bar (1796) fixed to ) to always pull the other end of the flattening pressure roller rotating member (1793), and the The flattening operation is fixed to the inner surface of the flattening pressure roller bending piece 1791b of the flattening pressure roller installation member 1791 to correspond to the upward rotation of one end of the flattening pressure roller rotating member 1793 in the upward direction. It operates by the approach of the piece 1793a, and it is characterized in that it consists of a sensor unit 1798 for input provided to set the initial pressing force of the flat pressing roller 1794 according to applying an operation signal to the control unit side. Output media stabilization device for hybrid inkjet printers.

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