CN216466828U - Cotton fabric wet process active transfer printing machine - Google Patents

Abstract

The utility model relates to an active transfer printing machine of cotton fabric wet process for when cotton fabric transfer printing, carry out moist and normal atmospheric temperature impression to the textile fabric. It discloses be provided with moist cloth device on compress mechanism, the regulating spindle sets up the place ahead at the reticulation roller, the one end of regulating spindle is provided with the gear, the top that lies in the gear on the crane is provided with the rotation regulation pole, and mesh with the gear through the spiral tooth, fixing base and nozzle array install on the regulating spindle, the support arm and the nozzle of fixing base extend to reticulation roller direction, the lift adjustment pole is connected with the support arm of fixing base through the screw thread, the lifter plate is installed on the lift adjustment pole, the blade holder is installed in the lifter plate bottom, the tool holder is installed in the tool holder bottom, the blade is installed in the tool holder, and downward protrusion is outside the tool holder. The utility model has the advantages that it can control the cotton degree of wetness that knits transfer printing in-process fabric surface accurately, and the machine can work for a long time steadily, and each device is adjusted and is all very convenient with the installation.

Description

Cotton fabric wet process active transfer printing machine

Technical Field

The utility model relates to an active transfer printing machine of cotton fabric wet process, specifically speaking are transfer printing machine who contains moist cloth device, when moistening fabric surface before the transfer, reach accurate control to the fibrous wetness degree of fabric, implement the device that shifts the stamp immediately.

Background

The existing cotton fabric (natural fiber) printing process in the market, such as screen printing, flat screen printing, rotary screen printing, digital direct ink jet printing and other printing modes, mostly adopts paint as printing dye. The process methods all have the defects of large energy consumption, sewage, more working procedures, long time consumption or only involving partial cotton fabrics. The auxiliary agents used in the production are various in types, and the content of toxic or low-toxic components is difficult to remove; the environmental protection pressure is huge, and the color saturation, the level performance is poor, can't realize high-end printed fabric demand. The flexible conversion of small batches and large orders cannot be considered, and the method for solving the defects of the traditional printing is to provide a printing technology without sewage discharge, a cloth moistening ring section is arranged in the printing technology without sewage discharge, and the cloth moistening humidity of various cloth is required to be accurately controlled.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cotton fabric wet process active transfer printing machine, it can control the moist cloth's of cotton fabric printing technical process humidity range through moist cloth device accurately, provides good condition for hou mian technology.

The technical solution of the utility model is that a blank cloth discharging cylinder, a felt, a printing carrier discharging cylinder, a cloth pressing mechanism, a lubricating fluid storage box, a blank cloth tension adjusting cylinder, an impression cylinder, a hydraulic station, a waste film winding cylinder and a cylinder hydraulic cylinder, wherein the cloth pressing mechanism comprises a frame, a lifting cylinder, a hydraulic pump, a hose, a motor, a lifting frame and an anilox roller, and is characterized in that the cloth pressing mechanism is provided with a lubricating device which comprises an adjusting shaft, a fixed seat, a nozzle, a lifting adjusting rod, a rotary adjusting rod, a gear, a lifting plate, a blade, a cutter holder and a lubricating fluid recycling hopper, the adjusting shaft is arranged in front of the anilox roller, the left end and the right end are respectively connected with the lifting frame, one end of the adjusting shaft is provided with a gear, the rotary adjusting rod is arranged above the gear on the lifting frame, and the rotary adjusting rod is meshed with the gear through spiral teeth, the fixing base and the nozzle array are installed on the adjusting shaft, the supporting arm and the nozzle of the fixing base extend towards the reticulation roller, the lifting adjusting rod is connected with the supporting arm of the fixing base through threads, the lifting plate is installed on the lifting adjusting rod, the cutter holder is installed at the bottom of the lifting plate, the cutter holder is installed at the bottom of the cutter holder, and the blade is installed in the cutter holder and protrudes downwards out of the cutter holder.

The nozzle be ordinary nozzle or ultrasonic atomization nozzle, the nozzle stretches to the reticulation roller, the position of spraying water is in contained angle department between nozzle blade and reticulation roller, the nozzle is connected with the hydraulic pump of installing in moist cloth liquid storage box through the hose.

The axle core of regulating spindle aligns with preceding, the back parallel of the axle core of reticulation roller, and the both ends of regulating spindle are connected with the crane at the left and right both ends of frame respectively through the bearing, and the just, the counter-rotation of rotation regulation pole can drive the regulating spindle through the gear and just rotate.

Positive and negative rotation of lift control pole can force the blade holder to reciprocate, and the blade holder setting can drive the blade holder when the regulating spindle is rotatory and force the tangent contained angle that forms of lower semicircle of blade and reticulation roller between reticulation roller and regulating spindle.

The blade of the utility model is an elastic blade.

Moist cloth liquid recovery fill sets up respectively on the crane at the left and right both ends of frame, is located the clearance below between regulating spindle and the reticulation roller.

The utility model discloses an operating principle is provided with the moist cloth device on compress mechanism, the blade of moist cloth device can be through the drive of regulating spindle and the tangent contained angle that forms of semicircle under the reticulation roller, the nozzle sprays moist cloth liquid to reticulation roller and blade contained angle department, the reticulation roller of compress mechanism is at rotatory during operation, moist cloth liquid flows to the underneath embryo cloth that passes of reticulation roller along with the rotation of reticulation roller in the line of reticulation roller, make embryo cloth wetness control between 35 ~ 50%, press from both sides the angle of contact through moist cloth device regulation blade and reticulation roller tangent contact, thereby the wetness degree on accurate control fabric surface, embryo cloth wetness degree can be adjusted between 35 ~ 50% promptly.

The utility model has the advantages that it can control cotton accurately and knit transfer printing in-process gray cloth degree of wetting, guarantees that the stamp is gorgeous in color, and the level is abundant, and the machine can long-time steady operation, and it is all very convenient to adjust and install moreover.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the cloth moistening device of the present invention mounted on the cloth pressing mechanism;

fig. 3 is a schematic structural view of the other viewing angle of the cloth moistening device of the present invention mounted on the cloth pressing mechanism;

fig. 4 is a schematic partial sectional structure of the present invention;

fig. 5 is an enlarged schematic view of a portion a in fig. 4 according to the present invention.

Detailed Description

According to the drawings of fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the gray cloth discharging tube 1, the gray cloth tension adjusting tube 6, the cloth pressing mechanism 4, the gray cloth tension adjusting tube 6, the impression cylinder 7, the printing carrier discharging tube 3 and the waste film winding tube 9 of the utility model are sequentially arranged and installed, the felt 2 is sleeved between the two gray cloth tension adjusting tubes 6 to circulate, the hydraulic station 8 supplies pressure to the cylinder hydraulic cylinder 10 installed above the impression cylinder 7, the cloth wetting liquid storage box 5 is installed below the cloth pressing mechanism 4, the cloth pressing mechanism 4 comprises a frame 11, a lifting cylinder 12, a hydraulic pump 13, a hose 14, a motor 15, a lifting frame 16, an anilox roller 17, two lifting frames 16 and the lifting cylinder 12 are respectively installed at two ends of the frame, the lifting frame 16 is connected with the telescopic rod of the lifting cylinder 12, the lifting frame 16 can move up and down under the driving of the lifting cylinder, the motor 15 is installed on the lifting frame and connected with one end of the anilox roller 17 through the driving belt, the two ends of the anilox roller 17 are respectively arranged on the lifting frames at the left end and the right end of the frame 11 through bearings, the hydraulic pump 13 is arranged in the moistening cloth liquid storage box 5, the fabric moistening device is characterized in that three groups of cloth pressing mechanisms 4 are sequentially arrayed between two gray cloth tension adjusting cylinders 6, a moistening device is arranged on each group of cloth pressing mechanisms 4, the surface moistening degree can be adjusted through the three groups of cloth moistening devices according to the thickness of different cotton fabrics and the weaving structure, when a color layer on a printing film and the cotton fabrics are simultaneously imprinted, the dye is fully blended into the fabric fibers, and stable color fiber groups are formed. The moistening device comprises an adjusting shaft 18, a fixed seat 19, a nozzle 20, a lifting adjusting rod 21, a rotary adjusting rod 22, a gear 23, a lifting plate 24, a blade 25, a cutter holder 26, a cutter holder 27 and a moistening fluid recovery hopper 28, wherein the adjusting shaft 18 is arranged in front of the anilox roller 17, the left end and the right end of the adjusting shaft are respectively connected with a lifting frame 16, the gear 23 is arranged at the left end of the adjusting shaft 18, the rotary adjusting rod 22 is arranged on the lifting frame 16 above the gear 23 and is meshed with the gear through spiral teeth, three fixed seats 19 and four nozzles 20 are respectively arranged on the adjusting shaft 18 in a linear array, a supporting arm of the fixed seat 19 and the nozzles 20 extend towards the anilox roller 17, the lifting adjusting rod 21 is connected with a supporting arm of the fixed seat 19 through threads, the lifting plate 24 is arranged on the lifting adjusting rod 21, the cutter holder 27 is arranged at the bottom of the lifting plate 24, the holder 25 is mounted at the bottom of the insert seat 27, and the insert 26 is mounted in the holder 25 and projects downward out of the holder 25.

The nozzle 20 is a common nozzle or an ultrasonic atomizing nozzle, the nozzle 20 extends to the direction of the anilox roller 17 to be above a gap formed between the tool apron 27 and the anilox roller 17, the spraying direction of the nozzle 20 is the direction of an included angle formed between the blade 26 and the anilox roller 17, and the nozzle 20 is connected with a hydraulic pump 13 arranged in the moistening cloth liquid storage box 5 through a hose 14.

The shaft core of the adjusting shaft 18 is aligned with the shaft core of the anilox roller 17 in a front-back parallel mode, two ends of the adjusting shaft 18 are respectively connected with the lifting frames 16 at the left end and the right end of the rack 11 through bearings, and the adjusting shaft 18 can be driven to rotate forward and backward through the gear 23 by rotating forward and backward rotation of the adjusting rod 22.

The forward and reverse rotation of the lifting adjusting rod 21 can force the cutter holder 27 to move up and down, the cutter holder 27 is arranged between the anilox roller 17 and the adjusting shaft 18, and the adjusting shaft 18 can drive the cutter holder 27 to force the cutter 26 to be in tangential contact with the lower semicircle of the anilox roller 17 to form an included angle or separation.

The blade 26 is a blade having elasticity.

The two lubricating fluid recovery hoppers 28 are respectively arranged on the lifting frames 16 at the left end and the right end of the rack 11 and are positioned below the gap between the adjusting shaft 18 and the anilox roller 17, so that the lubricating fluid sprayed by the nozzle 20 to the blade 26 direction flows back into the lubricating fluid recovery hoppers 28 from the two ends of the anilox roller 17 and then flows back into the lubricating fluid storage box 5 through the hose 14.

Through the structural mode of the moistening device detailed in the practical embodiment of the scheme, a person skilled in the art can inspire from the scheme that the adjusting rod 22 is replaced by driving the adjusting shaft 18 to rotate through a servo motor, an air cylinder and the like, the structure for manually rotating the adjusting shaft 18 to rotate is used for forcing the blade 26 to be in tangential contact with the anilox roller 17 to form an included angle, or the structure for manually adjusting the cutter holder to lift through the servo motor, the air cylinder and the like is used for forcing the blade 26 to be in upper and lower position adjustment of the tangential position of the anilox roller 17, the matching of three groups of moistening devices can accurately adjust the fiber humidity according to different cotton fabrics, and the inspiring structure is within the protection range of the scheme.

Claims (6)

1. A cotton fabric wet active transfer printing machine comprises a blank cloth feeding barrel, a felt, a printing carrier feeding barrel, a cloth pressing mechanism, a lubricating liquid storage box, a blank cloth tension adjusting barrel, an impression roller, a hydraulic station, a waste film winding barrel and a roller hydraulic cylinder, wherein the cloth pressing mechanism comprises a frame, a lifting cylinder, a hydraulic pump, a hose, a motor, a lifting frame and an anilox roller, and is characterized in that a cloth pressing mechanism is provided with a cloth wetting device which comprises an adjusting shaft, a fixed seat, a nozzle, a lifting adjusting rod, a rotary adjusting rod, a gear, a lifting plate, a blade, a cutter holder and a lubricating liquid recycling hopper, the adjusting shaft is arranged in front of the anilox roller, the left end and the right end of the adjusting shaft are respectively connected with the lifting frame, one end of the adjusting shaft is provided with a gear, the rotary adjusting rod is arranged above the gear on the lifting frame, and the rotary adjusting rod is meshed with the gear through spiral teeth, the fixing base and the nozzle array are installed on the adjusting shaft, the supporting arm and the nozzle of the fixing base extend towards the reticulation roller, the lifting adjusting rod is connected with the supporting arm of the fixing base through threads, the lifting plate is installed on the lifting adjusting rod, the cutter holder is installed at the bottom of the lifting plate, the cutter holder is installed at the bottom of the cutter holder, and the blade is installed in the cutter holder and protrudes downwards out of the cutter holder.

2. The wet reactive transfer printing machine for cotton fabrics according to claim 1, characterized in that the nozzle is a common nozzle or an ultrasonic atomizing nozzle, the nozzle extends to the direction of the anilox roller to be above the included angle between the cutter holder and the anilox roller, the spraying direction of the nozzle is the included angle between the cutter blade and the anilox roller, and the nozzle is connected with a hydraulic pump arranged in a moistening liquid storage tank through a hose.

3. The wet active transfer printing machine for cotton fabrics according to claim 1, wherein the shaft core of the adjusting shaft is aligned with the shaft core of the anilox roller in a front and back parallel manner, two ends of the adjusting shaft are respectively connected with the lifting frames at the left and right ends of the frame through bearings, and the adjusting shaft can be driven to rotate forward and backward through a gear by rotating the forward and backward rotation of the adjusting shaft.

4. The wet-process active transfer printing machine for cotton fabrics according to claim 1, wherein the forward and reverse rotation of the lifting adjusting rod can force the cutter holder to move up and down, the cutter holder is arranged between the anilox roller and the adjusting shaft, and the adjusting shaft can drive the cutter holder to force the cutter blade to be tangent to the lower semicircle of the anilox roller to form an included angle or separate when rotating.

5. The wet reactive transfer printing machine for cotton fabrics according to claim 1, characterized in that the blades are elastic blades.

6. The wet activated transfer printing machine for cotton fabrics according to claim 1, which is characterized in that the fabric moistening liquid recovery hoppers are respectively arranged on the lifting frames at the left end and the right end of the frame and are positioned below a gap between the adjusting shaft and the anilox roller.

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