RU2126328C1 - Multicolored large-sized ink-jet printer - Google Patents

Abstract

FIELD: printing equipment. SUBSTANCE: printer has carrier feeding system, ink supply mechanism movable relative to carrier along closed guiding rail with power supplying bars, precise positioning creasing rule and printer control unit. Carrier feeding system has shafts positioned in vertical plane. Feeding shaft is provided with reversible engine. Tension shafts are positioned at the top and underneath feeding shafts and connected with reversible shafts through magnetic couplings. Ink supply mechanism has at least one carriage with power supply brushes, receiver which may be filled with air through readily detachable lock, controller equipped with transmitter-receiver and optical detector electrically connected with controller. Electric valves are positioned between ink charging vessels and readily detachable locks of system for additional charging of ink vessels. Ink charging vessels are disposed on carriage and provided with level sensor. Electric valves are connected with printer control unit. Locks are positioned at guiding rail turning locations. Such construction allows single-sided printing on two carriers. EFFECT: increased efficiency, enhanced reliability in operation and improved printing quality. 2 cl, 5 dwg

Description

 The invention relates to the field of inkjet printers, intended for the manufacture of large-format multi-color printed products used, in particular, in the advertising industry.

 A feature of this field of application of inkjet printers is the receipt of sufficiently high-quality large format images (up to tens of square meters) at a low cost. This goal is achieved by creating high-performance machines with a relatively low resolution of the resulting images (usually 18-36 lines per inch). In principle, these devices do not differ from conventional printers, which are widely used as documenting devices in PCs.

 A typical representative of such devices is an inkjet print head and printer, protected by European patent N 0400652 from 05.31.90.

 The printer comprises a paper feed device, a carriage reciprocating along the paper carrier, and a removable ink jet head mounted on the carriage. The head is made in the form of an autonomous unit having an electronic unit, which contains information about the relative position of the drawing nozzles in the head, which are used by the PC control program to output information from the PC to the printer.

 The drawing process is carried out by supplying energy to each nozzle of the head in the form of an electrical impulse, which is converted into heat sufficient to eject a portion of paint from the nozzle. In addition, the printer uses a system for synchronizing the position of the head relative to the medium and the displayed information.

 In principle, all printers work according to this scheme, differing only in the way the image is applied (either by heat, or by water hammer, or by a portion of air, etc.).

 All the main elements of such printers are present in the device protected by US patent N 4999651 dated 5.12.91 (analog). In a multi-color recorder, ink containers are located on a common carriage for reciprocating motion. There are also intermediate working containers in which the ink level is kept almost constant, which ensures the best quality of reproduced images. In addition, an electronic unit is provided in the device, which contains a reproduced image in its memory and controls the operating modes of the device.

 The presence of an intermediate unit for storing the input information allows you to split the time in which the image is received in the PC (for example, by scanning photo images and their further editing or obtaining images using computer graphics, etc.) and transferring them to a medium. In addition, the amount of information stored in the device depends only on its own capabilities and is in no way connected to a PC, which allows you to freely use this device in network systems.

 The presence of containers for paints directly on the carriage simplifies the design of the device, while at the same time providing the possibility of obtaining a larger amount of graphic material without frequent refilling of the device. As noted above, the presence of an intermediate supply capacity provides a constant level of ink, which contributes to the efficient operation of inkjet elements and the high quality of reproduced images.

A device protected by US patent N 5376957 dated 12/27/94 was chosen as a prototype. The device is designed to obtain a direct image on one side of a sheet and a mirror image on the other side, which allows for a better image on a translucent material. To do this, it is equipped with a spraying mechanism with two carriages located on opposite sides of the carrier. The operation of the device and, in particular, the carriages and heads is controlled by the control unit and the storage of the generated direct and mirror images. The following patent highlights are presented below:
1. Using a scanner, information is entered into a computer that edits the image and encodes the print density of each color in the form of electric current pulses of various widths, which control the electric valves of the ink jet heads of each color located on the inkjet printing device. Thus, the density of each color is determined by the width of the pulse generated by the PC.

 2. The features of operation of the inkjet elements of the heads are that the air flow entering the working nozzle of the inkjet element consists of two flows: one is continuous, creating a constant blowing in the nozzle, which ensures non-drying of the paint in the supply channel and prevents the formation of spurious droplets on the end of this channel, and the second is controlled by an air valve, which opens an additional stream of air, providing ink supply to the medium in accordance with the width of the control pulses.

 3. To ensure reliable adhesion, drying and elimination of paint smearing, the carrier is heated by spiral heaters, which are installed below and above the carriages along the media feed.

 4. Sponges are also placed on the carriages, which wipe the carrier before applying paint to it, which ensures removal of extraneous impurities and also improves the application of paint to the carrier.

 The disadvantages of these designs include the presence of “tails” on each moving carriage, which consist of a plurality of electrical cables for controlling valve heads and ink supply tubes. This "tail" increases as the width of the carrier along which the carriage moves, and this "tail" has to be moved together with the carriage, which creates many technological difficulties and reduces the reliability of the device.

 The reciprocating movement of the carriages involves acceleration to the rated speed, braking and stopping for each working cycle, which reduces the performance of the device and requires increased power of the drive mechanisms and corresponding dampers for braking. In addition, with the horizontal arrangement of the heads of various colors from left to right and from right to left, the sequence of applying the primary colors is violated, which leads to the "striped" (in shade) of the resulting images. The device also has disadvantages associated with the possibility of obtaining two-sided images. In particular, in obtaining direct and mirror images, various heads located on different carriages were used. It is impossible to ensure their full identity in work. Therefore, when receiving two-sided images, distortions in the color reproduction of the resulting images are inevitable, which affects the quality of the product.

Thus, the problems solved in the invention are as follows:
- elimination of the “tails” connecting the carriage with the control signal, air and paint supply systems;
- ensuring consistent application of primary colors;
- elimination of color distortion in duplex printing on a translucent medium;
- ensuring accurate application of paints on the carrier;
- The possibility of one-sided printing on two media at once.

 To achieve the above technical results, a multicolor large format inkjet printer design is proposed, including a media supply system, an ink spraying mechanism that moves along a closed guide rail relative to the medium, which allows heads to bypass the medium from two sides, and the printer control unit. The shafts in the media supply system are arranged in a vertical plane, with tensioning shafts connected to the reversing motors by means of magnetic couplings located above and below the feed shaft equipped with a reversible motor. The paint spraying mechanism, which moves along a closed rail-guide, is equipped with at least one carriage with brushes for power supply, with a receiver filled with air from an external source through a quick-release lock, with a controller equipped with a radio transmitter, and with an optical sensor electrically connected with a controller. The rail is equipped with tires for power supply and a dash bar for precise positioning of the carriage. At the same time, electric valves connected to the printer control unit are installed between the filling containers located on the carriage and having level sensors and quick-release locks of the refueling system of these containers. Quick-release locks are located in the places where the rail-guide is turned. To increase the productivity of such carriages, there can be two or more. The carriages move at a constant speed, which reduces the power of the drive mechanisms and does not require dampers, as the carriages move in one direction (for example, clockwise), the question of the “stripedness” of the resulting images is removed, and the color palette of direct and mirror images is also same. This ensures complete autonomy of the carriage when it moves along the working sections of the media.

 The printer may have a second media supply system independent of the first, both parallel media systems being enclosed by a closed guide rail. Thus, it is possible to obtain an image simultaneously on two carriers located inside a closed rail-guide, which significantly expands the consumer properties of the device and increases its performance.

Figures 1, 2, 3, 4, 5 illustrate the design of the device:
figure 1 is a General diagram of a device with one media supply system;
figure 2 - diagram of the relative position of the rail-guide, tires and media;
figure 3 - layout of the main nodes of the spraying mechanism;
figure 4 - arrangement of quick connectors in the device;
5 is a general diagram of a device with two media supply systems.

 The device consists (see Fig. 1) of a bed (1), carrier feed rollers (2), tension shafts (3), feed shaft (4), guide rollers (5), pressure rollers (6), receiving shaft (7 ), carriage (8), guide rail (9). The carrier tension shafts are connected to gearboxes (11) and reversible electric motors (10) by means of magnetic couplings (12). The shafts of the carrier intake and supply are connected to the drive reversing electric motors through gearboxes (not shown in Fig. 1). The carriage (8) (see FIG. 2) is placed on a closed rail-guide (9), to which, using supports (13) made of non-conductive material, copper buses (14) are attached to which an electric current is supplied. By means of brushes (15), electric current is supplied to the power supply unit of the carriage (not shown in Fig.) And other energy-consuming devices. The spraying mechanism is shown in FIG. 3. On the carriage (8) there is an electric drive (16) for its movement, a receiver (17) for storing high pressure air to ensure the operation of inkjet elements, a block of heads (18) with inkjet elements and refueling containers for storing paints (19) with sensors level (not shown in FIG. 3), electric drive control unit (20), electronic controller (21) for radio communication with the control unit (not shown in FIG.) and ensuring the operation of all carriage nodes in the process of image output, optical sensor ( 22) for carriage positioning relative to the carrier by a dashed line (23) located on the guide rail, a brush holder (24) with brushes (15) supplying power to the carriage. Figure 4 shows the location of the quick disconnect connections used for refueling the carriages with air and paints. The air refueling system includes a pipeline (25), a supply nozzle (26) with a movable tip (27) sitting on the nozzle and capable of rotation on it, a carrier (28), on which a quick-release lock (29) is fixed for docking and undocking with the pipeline (30) refill the carriage receiver. In the initial position, the carrier (28) is held by a spring (31), mounted on a movable tip (27). The system of refueling with paints is arranged in a similar way, only on the carrier (32) there are solenoid valves (33) for refueling with paint connected to refueling containers for paints (19). Quick-release locks (34) are attached to the lower (output) part of the electrovalves (33) and during refueling are opposite the neck of the filling containers (19) and the head block with paint containers (18), which are placed on the carriage (8).

 The device operates as follows.

 By commands from the control unit of the device, the feed shaft (4) moves the medium by one working step, equal to the width of the output image line. When the carriage (8) is in the process of its uniform movement in non-working areas of the device (zones I and II, see Fig. 2), the carriages are refilled with air and paints, and information that must be displayed on the medium is transmitted via the radio channel. If the controller (21), placed on the carriage, gets into the working area during the movement of the carriage, it independently controls the process of outputting information (in this case, the operation of inkjet elements) to the medium. When leaving the working area, the device control unit determines the status of the device, manages the operation of air and paint refueling systems, carries out the movement of media, performs additional service actions, determines the operability of the device, tests individual units, displays a message to the operator on the display system and carries out the next cycle of work.

 In the presence of one carrier, the device in accordance with the described algorithm implements the images from two sides, both using one carriage, using two or more, and in the presence of two independent media supply systems, the device implements the image on two carriers. In FIG. 5 shows a general diagram of a device with two carrier systems and two carriages. Thus, when implementing this invention, the quality of the products (i.e., image quality) is improved and productivity is increased by at least two times.

Claims (2)

 1. A multi-color large format inkjet printer, including a media supply system, an ink spraying mechanism, moved along a guide rail relative to the medium, and a printer control unit, characterized in that the shafts in the media supply system are located in a vertical plane, above and below the feed shaft, equipped with a reversible motor, tension shafts are located, connected to the reversible motors by means of magnetic couplings, while the paint spraying mechanism is moved along a closed re The guide rail is equipped with at least one carriage with brushes for power supply, with a receiver filled with air via a quick-release lock, with a controller equipped with a radio transmitter and an optical sensor electrically connected to the controller, while the rail guide is equipped with busbars for supplying power and a dash line for accurate positioning of the carriage, and between the paint filling tanks and the quick-release system locks located on the carriage and having a level sensor we refuel vessels paints have electric valves connected to the printer control unit, and the quick-locks are located in areas of the rail-track turn.  2. The printer according to claim 1, characterized in that it has a second, independent of the first, media supply system, both parallel media supply systems being covered by a closed guide rail.

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