SU192165A1 - DEVICE FOR CONTINUOUS GETTING PATTERNS ON TEXTILE AND OTHER CLOTHES - Google Patents

Description

A device for continuously producing patterns on textile and other webs is known, comprising an element for spraying a dyeing liquid and a software control mechanism.

The proposed device allows to obtain a pattern with a raster of high lineature. This is achieved by the fact that the device is equipped with a device for detaching free-flying particles of the coloring fluid, which can be made in the form of movable plates mounted on controlled levers, in the form of opposite electrodes or electromagnets mounted on both sides of the free-flying particles of the coloring fluid, in the form of compressed air nozzles installed perpendicular to the direction of free-flying particles of the coloring fluid and in the form of an endless template, perforated in accordance with the figure ohm and transported okraschivayuschey spray liquid. The guide nozzles are installed between the device for deflecting free-flying particles of the coloring fluid and the web, while the guide nozzle is electrostatically charged, and an opposite electrostatic charge electrode is installed behind the web.

In addition, between the outlet openings of the reservoir for the colourant and the receiving chamber, wires are installed to form a film

fluid and an endless pattern is installed between the nozzle for spraying a coloring fluid in the form of a nozzle and a film of liquid.

In the device, a corrugated roller is used as an element for spraying the coloring fluid, which is mounted in the slotted casing and partially immersed in the coloring liquid.

The compressed air nozzle is made in the form of an elastic tube installed against the opening in the shield and carrying iron bar, controlled by an electromagnetic system, and fixed visors are installed under the free ends of the moving plates.

FIG. Figures 1 and 2 show free flow deflection patterns; in fig. 3 - the proposed device, the cut; in fig. 4 shows a section along A-A in FIG. 3; in fig. 5 and 6 are other variants of the device in section; in fig. 7 -

grooved roller; in fig. 8 and 9 show other embodiments of the device, a longitudinal section; in fig. 10 shows a section along .B-Pa. FIG. 9; in fig. 11, 12 and 13 are other embodiments of the device, a longitudinal section; in fig. D) ii lu — other embodiments of the device, longitudinal section; ia fpg. 17, section on GG pa FIG. 16. The canvas / moves in the direction of arrow D, and the coloring fluid circulates in a circle in the direction of arrow E through the collector 2 and the pump 3, while the paint particles 4 are stitched through the outlets 5 and fly parallel to the movement of the canvas 1 (in Fig. 2 they are years t to the canvas). The direction of the free-flying particles is changed by means of the device 6, and this device (see Fig. 1) works when a pattern is drawn on the canvas, and device 6 (as shown in Fig. 2) for rejecting the free-flying particles of the painting color is given in the action is when there should not be a pattern on canvas 1. Free-flying particles can spread throughout the entire width of the web or only on its parts. Accordingly, it chooses or establishes the width of the paint release points. The ink, which is under pressure in the space 7 (see Figs. 3 and 4), enters the nozzles 8, which are located adjacent to each other. By means of a flap 9 located above each nozzle as a deflecting means, the paint particles are deflected by a fixed deflecting visor 10 extending across the entire width of the nozzles. The paint flows through the channels 11 into the collection space 72 and through the channel 13 again enters the pump for circular circulation. If the flap 9 is lifted in the direction of the arrow M with the aid of a controllable lever, then the paint particles through the hole in the steak 14 fall onto the canvas and form a pattern. A spray deflector 15 and a visor 16 are attached to the wall 14 to prevent the paint particles from being sprayed to the outside. The device according to another variant (see FIG. 5) operates in a similar manner. The deviation of the paint particles occurs after they exit from the nozzle S with the guide plate 17, which is fixed with a double-arm lever 18. The lever is held in a definite position by means of the spring 19. He performs a program-controlled movement in the direction of the arrow M. In the device (see Figs. 6 and 7), the free-flying particles of paint move along the entire width of the device in the form of a flat jet. This is done by rotating the grooved roller 20. In the collection space 12, the ink level is kept constant by known means. The grooved roller 20, located in the housing 21 with slotted aam 22, is immersed in paint and the paint level of the roller and in the assembly area is the same. During the rotation of the roller 20 particles of paint by centrifugal force. ejected through slot 25. The deviation is 1bts free flying particles in a similar way. In the device according to another variant (see FIG. 8), the paint was removed from the collection i; Soil 8, which can be performed as one single or a number of individual nozzles. The endless moving pattern 24, perforated in accordance with the pattern, passes through the guide 25 and the cleaning rollers 26. The rollers 27 are driven, while the setting roller 28 is rearranged according to the pattern length in the direction of the arrow L - / V. In order to apply a drawing to the web / particles of paint, they pass through a guide nozzle 8a and a spray deflector 15. The deflection of free flying particles of paint (see Fig. 9 and 10) is carried out by pneumatic means. P1z of space 7 under pressure, the ink enters nozzles 8 arranged side by side; perpendicular to each of these nozzles, there is a pneumatic nozzle 29, which is in communication with the compressed air space 30, extending the entire width of the pattern. This top space is blocked by a membrane 31, in which for each nozzle 29 there is a needle valve 32. At each valve, the free end of the control flap 33 is pressed, which can be lifted in the direction M using program control. The membrane 31 rises in this place and at the same time lifts the needle of the valve 32. Compressed air bursts through the nozzle 29 and deflects downward free-flowing particles of paint, which are directed into the collection space 12 by means of a deflector visor 10. Paint particles (see fig. 11 and 12) move parallel to the web. The paint assembly 2 is located at the site of the particle deflection. In order to obtain a uniformly falling pleic of the colorant fluid over the entire width of the web or pattern, it is advisable to install natuated wires 34 vertically adjacent to each other. Forming a flat surface along which the paint from the collector 2 flows freely through the slit 35 into the collecting space 12. The moving down the paint particles in the direction of the web with compressed air through the perforated pattern 36. In this case, the speed of the staple of the coloring liquid, the angle of incidence and the fabric of the material and the speed of the web can be adjusted, which can be set via the depth penetration of coloring material into a liquid fabric. The freely flying parts of the paint (see Figs. 13 and 14) are deflected by the electrostatic or electromagnetic forces. Electrodes or electromagnets and 39 for each nozzle are installed on both sides of free flying particles of ink in insulators 37 and 39 for each nozzle 8. If the supply of current to these electrodes or an electromagnet: vi 38, 39 is interrupted, then the flying parts of the paint fall on . If the current is switched on, they deflect and flow down a non-conducting deflector 10 into the collection space 12. It is advisable to turn on and off the current of the electrodes or electromagnets through contact tapes, etc., according to a program corresponding to the drawing.

In a device made according to another embodiment (see FIG. 15), the paint particles coming from the collector 2 through the nozzles 8 are deflected, however when lifting the shield 9 in the direction M, the paint particles pass through the spray nozzles 40 installed in insulators 37 At the back of the web there is an electrode 41 extending over the entire width of the web.

The spray nozzle and the electrode charge are opposite.

The deviation of the free-flowing particles of paint (see Fig. 1.6 and 17) occurs pneumatically. A perpendicular tube is installed in each nozzle and a spring tube 42 is located in communication with the space 30 containing compressed air. The spring tubes are set with the help of the adjusting screw 43 so that they rest against the stop 44 in the rest position. In this position, the rest of the air coming out of the spring tube passes through the opening 45, meets the perpendicular stream of free-flying particles and deflects it in such a way that it is guided by the deflector plate 10 into the paint collector. Each spring tube 42 carries iron measles 46, working in conjunction with an electromagnetic system. In order for the spring tubes to be installed closer to one another, the electromagnetic systems 47 are arranged in many rows one above the other. When DC is turned on, iron measles 46 is attracted. At the same time, the SRII4PIY end of the spring tube is fed in the direction of the arrow 2 and deviates from the axis of the hole 45. This stops the action of the strings of compressed air on the free-flying particles, and they fall on the web 1.

The devices described above work reliably, since the outlet openings do not stick because of the continuous circulation of paint. The inherent energy of free-flying particles makes it possible to also deliver faster and shorter deflecting pulses, since a paint jet is already needed to obtain a pattern.

In this way, more boggy patterns can be obtained with a sickness speed of the web.

Subject invention

Claims (1)

1, an apparatus for continuously obtaining patterns on textiles and other webs, comprising an element for spraying a coloring fluid and a control program mechanism, characterized in that In order to obtain a pattern with a high ruling pattern, it is equipped with a device for deflecting free-flowing particles of the coloring fluid. 2, the apparatus according to claim 1, characterized in that it is adapted to deflect the free-flying h; 1 of the glitter; 5 ;; 0 tse: liquids are made in the form of moving plates, reinforced by steerable levers 3, the apparatus according to claim 1, characterized in that the device for deflecting free-flying particles of the coloring fluid is made in the form of opposite electrodes or electromagnets mounted on both sides of the free-flying particles of the coloring fluid, 4, The device according to p, 1, itli-ayshchses. by the fact that between the device for deflecting free-flying particles of the coloring fluid and in the lottery, the nozzles are installed; 5, The arrangement according to claim 1, characterized in that the device for deflecting free-flying particles of the coloring liquid is made in the form of nozzles for compressed air installed perpendicular to the direction of the free-flying particles of the coloring liquid, 6, The apparatus according to claim 1, characterized in that the device for deflection is free flying particles. the coloring fluid is made in the form of an endless pattern, perforated in accordance with the pattern and moved during the spraying of the coloring fluid. 7, a device according to claims 1, 2, and 4, characterized in that the guide nozzle is electrostatically charged, and an opposite electrostatic charge electrode is mounted behind the web, 8, Device but clause 1, characterized in, m, that between the outlet openings of the tank for the marking liquid and the receiving chamber, wires are installed to form a film of coloring liquid, 9, Apparatus according to claim 1, 6, 8, characterized in that an endless pattern is installed between the element for spraying a coloring fluid, made in the form of a nozzle, and a pleic of liquid, 10, The apparatus according to claim 1, characterized in that a corrugated roller is used as an element for spraying a coloring fluid and is mounted in a casing with slots and partially immersed in the coloring fluid 11, a device according to claims 1 and 5, characterized in that the nozzle for compressed air is made in the form of an elastic tube installed against the hole in the shield and carrying the iron core, controlled by an electromagnetic system. . -L h tj --- 13 th Rig. 6