CN112281372A - Dedusting printing and dyeing device and using method - Google Patents

Abstract

The invention discloses a dust removal printing and dyeing device, which relates to the field of textiles and comprises the following components: the automatic printing and dyeing device comprises a singeing mechanism, a dust removing mechanism and a printing and dyeing mechanism, wherein after cloth enters a shock absorption device, the thickness of the cloth is clamped by the shock absorption device in a self-adjusting mode, vibration generated when the cloth is conveyed during clamping is eliminated through shock absorption lock catches at two ends, the cloth is sent into the singeing device to be fired on fluff on the surface of the cloth, the other group of singeing devices on the fired other side is cooled, the two groups of singeing devices work alternately, the fluff is removed by the singeing device, the cloth after being removed is sent into a conveying device to be cleaned and blown more finely on the surface, and finally the cloth is sent into the printing and dyeing mechanism to.

Description

Dedusting printing and dyeing device and using method

Technical Field

The invention relates to the field of textiles, in particular to a dedusting printing and dyeing device and a using method thereof.

Background

Dyeing and printing is called dyeing and finishing again, and it is a processing mode, at first will be to the arrangement and the cleanness on the surface of cloth before printing and dyeing, and when the device conveys the cloth, can produce a large amount of dusts, and a large amount of dusts that exist in the air can seriously influence operating personnel's health, still can reduce the printing and dyeing quality simultaneously, current printing and dyeing device is before printing and dyeing the cloth, do not have any protection during the cloth conveying to vibrations that the device produced when conveying can make the dust and the fine hair on machine surface fall on the cloth surface, thereby influence the printing and dyeing quality of cloth.

Disclosure of Invention

The invention aims to solve the technical problem that when the existing printing and dyeing device conveys cloth, dust in air and on a machine is attached to the surface of the cloth due to vibration of a machine body, so that the printing and dyeing quality is influenced.

The invention also aims to provide a using method of the dust removal printing and dyeing device.

In order to achieve one of the purposes, the invention adopts the following scheme: a dust removal printing device, characterized by comprising: singeing mechanism, this singeing mechanism sets up subaerial, and this singeing mechanism includes: singeing shell, this singeing shell set up subaerial, and shock absorber, this shock absorber connect in the inside of this singeing shell, and this shock absorber includes: an upper shock absorbing wheel, the upper shock absorbing wheel is positioned inside the upper chamber of the singeing shell, two sides of the upper shock absorbing wheel are provided with end heads, a lower shock absorbing wheel is positioned inside the upper chamber of the singeing shell, two sides of the lower shock absorbing wheel are provided with end heads, an upper shock absorbing gear is connected with two sides of the upper shock absorbing wheel, two groups of lower shock absorbing gears are arranged on the upper shock absorbing gear, two groups of lower shock absorbing gears are connected with two sides of the lower shock absorbing wheel, two groups of shock absorbing lock catches are arranged on the lower shock absorbing gear, the shock absorbing lock catches are positioned on two sides of the upper shock absorbing wheel and the lower shock absorbing wheel, the shock absorbing lock catches are provided with six groups of shock absorbing springs, the shock absorbing springs are connected on the shock absorbing lock catches, the singeing device is connected inside the singeing shell, the singeing device is provided with two groups of upper and lower, and the singeing device is positioned at the rear end of the shock absorbing device, scrape the hair device, should scrape the hair device and connect in the inside of this singeing casing, should scrape the rear end that the hair device is located this singeing casing, dust removal mechanism, this dust removal mechanism sets up subaerial, and this dust removal mechanism is located the rear end of this singeing mechanism, and this dust removal mechanism includes: conveyer, this conveyer sets up subaerial, and the pinch roller device, this pinch roller device are located this conveyer's top, and this pinch roller device is provided with the multiunit, and printing and dyeing machine constructs, and this printing and dyeing machine constructs to be located this setting subaerial, and this printing and dyeing machine constructs to be located this dust removal mechanism's rear, and this printing and dyeing machine constructs and includes: printing and dyeing casing, this printing and dyeing casing set up subaerial, the pan feeding device, this pan feeding device is connected in the inside of this printing and dyeing casing.

Further, in the embodiment of the invention, the singeing shell is arranged on the ground, and the singeing shell is provided with an upper bin and a lower bin.

Further, in the embodiment of the present invention, the singeing outer wheel is connected inside the upper chamber of the singeing housing, an opening is provided right below the singeing outer wheel, singeing gears are located on both sides of the singeing outer wheel, a singeing inner wheel is located inside the singeing outer wheel, a grid mesh is provided on the surface of the singeing inner wheel, an upper singeing pipe is located below the singeing outer wheel, the opening of the upper singeing pipe is right opposite to the grid opening right below the singeing inner wheel, a lower singeing pipe is connected below the upper singeing pipe, four columns are provided on the surface of the lower singeing pipe, a heating pipe is located inside the singeing inner wheel, the front end of the heating pipe is provided with a plurality of groups of conduits, a cooling pipe is located inside the singeing inner wheel, the front end of the cooling pipe is provided with a plurality of groups of conduits, the guide pipe of this cooling pipe front end and the guide pipe of heating pipe front end place in turn, and the spring that singes, this spring that singes connect under this on the stand that singes pipeline surface set up, this spring that singes is provided with four.

Further, in the embodiment of the present invention, the shaving shell is connected inside the upper chamber of the singeing shell, the lower surface of the shaving shell is provided with holes, the inner wall of the shaving shell is provided with two pairs of upper and lower fixed stations, an upper shaving blade is connected to the fixed station above the inner wall of the shaving shell, an upper shaving pressing sheet is connected to the upper end of the shaving shell, the upper shaving pressing sheet is located above the upper shaving blade, a lower shaving blade is connected to the fixed station below the inner wall of the shaving shell, and a lower shaving pressing sheet is connected to the lower end of the shaving shell, the lower shaving pressing sheet is located below the lower shaving blade, and a shaving collection box is located at the lower end of the shaving shell.

Further, in the embodiment of the present invention, the conveying bracket is disposed on the ground, the conveying bracket is disposed behind the lower chamber of the singeing shell, the conveying shell is connected above the conveying bracket, the conveying shell is disposed behind the upper chamber of the singeing shell, the conveying collecting box is connected to the left side of the conveying shell, the conveying motor is disposed on the right side of the conveying shell, the upper conveying sweeping wheel is connected above the conveying motor, a brush is disposed on the surface of the upper conveying sweeping wheel, the lower conveying sweeping wheel is connected below the conveying motor, and a brush is disposed on the surface of the lower conveying sweeping wheel.

Further, in the embodiment of the present invention, the inner ring of the pressing wheel is connected inside the conveying casing, a hole is formed on the surface of the inner ring of the pressing wheel, an outer ring of the pressing wheel is located outside the inner ring of the pressing wheel, a hole is formed on the surface of the outer ring of the pressing wheel, a pressing wheel plate is connected to the bottom of the pressing wheel plate in the hole of the inner ring of the pressing wheel, an end socket and a pressing wheel spring are arranged at the bottom end of the pressing wheel plate, the pressing wheel spring is connected to the lower end of the pressing wheel plate, and the pressing wheel spring is located in an interlayer between the outer plate of the pressing wheel and the inner plate.

Further, in an embodiment of the present invention, the printing housing is disposed on the ground, a hole is disposed on a left surface of the printing housing, the printing housing is located at the rear end of the transfer frame, and a printing tube is located in the hole on a right side of the printing housing.

A use method of the dust removal printing and dyeing device comprises the following steps:

the singeing mechanism is started, the cloth firstly enters the shock absorption device, the cloth is continuously fed forward in the upper shock absorption wheel and the lower shock absorption wheel, and when the cloth shakes during feeding, shock absorption buckles fixed on two sides of the upper shock absorption wheel and the lower shock absorption wheel eliminate the shock received by the shock absorption springs on the shock absorption buckles when the shock absorption buckles receive the shock.

After the cloth is sent into the singeing device from the shock absorber, lower singeing pipeline and singeing spring when the cloth gets into the shock absorber, carry out the centre gripping and the adaptation to different thickness cloth to the cloth through the pressure regulating of spring, when the cloth passes through the inside of singeing device, the lower singeing pipeline of top aligns the cloth with the export of the lower singeing pipeline of below, the inside heating pipe of singeing device and cooling tube cross arrangement, the singeing device heating pipe of top and below also cross arrangement with the cooling tube, when the singeing device heating pipe of top carries out the singeing through lower singeing pipeline, the singeing device cooling tube of below carries out the humidification cooling to the other one side of cloth.

Cloth after singeing gets into the frizing device, is rejected by last frizing sword and the end of a thread after the firing of frizing sword down on the cloth, goes up the frizing preforming and scrapes the preforming down and to last frizing sword and scrape the hair sword down and extrude inside, cleans the cloth surface, and the end of a thread that is scraped off is sent into and is scraped hair and collect the box.

The cloth is at the reserve conveyer of sending into that the hair is finished scraping, the last conveying of conveyer front end is swept the wheel and is cleaned the surface of wheel pair cloth with conveying down, the pinch roller device of both sides is pressed the both ends of cloth and is held and send into, pinch roller device's pinch roller board is after touching the cloth, inside rebound, press the cloth through the pinch roller spring and hold, the inside fan of conveying shell lasts cleans and dries the cloth, and finally, the cloth gets into printing and dyeing apparatus, and printing and dyeing apparatus carries out printing and dyeing to the cloth.

Has the advantages that: shock attenuation hasp through upper and lower shock attenuation wheel both ends, the lower singeing pipeline and the singeing spring of singeing device, the adjustment of pinch roller device carries out the adaptation to the cloth of any thickness, the limitation of printing and dyeing machine when printing and dyeing has been avoided, the singeing device of two opposition settings, it is relative, the inside heating pipe of single singeing device is placed with the cooling pipe is in turn, the inside heating pipe of two opposition singeing devices also places in turn with the cooling pipe, make the one side of same section cloth when the calcination fine hair, the another side then is at the humidification cooling, avoid firing the surface of cloth, influence the quality of cloth.

Drawings

FIG. 1 is a schematic perspective view of a dedusting printing and dyeing apparatus according to an embodiment of the present invention.

Fig. 2 is a back perspective view of a dedusting printing and dyeing device according to an embodiment of the invention.

Fig. 3 is a schematic perspective view of a singeing mechanism according to an embodiment of the present invention.

FIG. 4 is a schematic view of the internal structure of the singeing mechanism according to the embodiment of the present invention.

FIG. 5 is a schematic perspective view of a suspension apparatus according to an embodiment of the present invention.

Fig. 6 is a schematic perspective view of a singeing device according to an embodiment of the present invention.

Fig. 7 is a schematic perspective view of a shaving apparatus according to an embodiment of the present invention.

Fig. 8 is a schematic perspective view of a dust removing mechanism according to an embodiment of the present invention.

Fig. 9 is a schematic view of the internal structure of the dust removing mechanism according to the embodiment of the present invention.

Figure 10 is a schematic perspective view of a puck assembly according to an embodiment of the present invention.

FIG. 11 is a schematic perspective view of a printing mechanism according to an embodiment of the present invention.

Fig. 12 is a schematic perspective view of a feeding device according to an embodiment of the present invention.

FIG. 13 is a schematic view of the internal structure of a feeding device according to an embodiment of the present invention.

FIG. 14 is a schematic structural view of the feeding device according to the embodiment of the present invention when the feeding device is turned on.

FIG. 15 is a schematic view of a feeding device according to an embodiment of the present invention in a closed configuration.

1. Singeing mechanism 2, dust removal mechanism 3 and printing and dyeing mechanism

11. Singeing shell 111 and singeing shell

12. Shock absorbing device 121, upper shock absorbing wheel 122 and lower shock absorbing wheel

123. Upper shock absorbing gear 124, lower shock absorbing gear 125, shock absorbing lock catch

126. Shock-proof spring

13. Singeing device 131, singeing outer ring 132, singeing gear

133. Singeing inner wheel 134, heating pipe 135 and cooling pipe

136. An upper singeing pipe 137, a singeing spring 138 and a lower singeing pipe

14. Shaving device 141, shaving shell 142, upper shaving pressure piece

143. An upper hair scraping knife 144, a lower hair scraping knife 145 and a lower hair scraping pressing sheet

146. Shaving and collecting box

21. Transfer device 211, transfer rack 212, transfer housing

213. Conveying collection box 214, conveying motor 215, upper conveying sweeping wheel

216. Lower conveying sweeping wheel

22. Pinch roller device 221, pinch roller plate 222 and pinch roller outer ring

223. Pinch roller spring 224 and pinch roller inner ring

31. Printing shell 311, printing shell 312, printing tube

32. Feeding device 321, feeding shell 322 and feeding pressing end

323. Feeding wheel plate

In order to make the objects, technical solutions and advantages of the present invention clear and fully described, embodiments of the present invention are further described in detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of some embodiments of the invention and are not limiting of the invention, and that all other embodiments obtained by those of ordinary skill in the art without the exercise of inventive faculty are within the scope of the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "inner", "outer", "top", "bottom", "side", "vertical", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "a," "an," "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

For the purposes of simplicity and explanation, the principles of the embodiments are described by referring mainly to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one skilled in the art that the embodiments may be practiced without these specific details. In some instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the embodiments. In addition, all embodiments may be used in combination with each other.

The first embodiment is as follows:

a dust removal printing device, characterized by comprising:

singeing mechanism 1, singeing mechanism 1 sets up subaerial, and singeing mechanism 1 includes: singeing shell 11, singeing shell 11 sets up subaerial, and singeing shell 11 still includes: singeing shell 111, singeing shell 11 set up subaerial, and two bins about singeing shell 111 is provided with, shock absorber 12, and shock absorber 12 is connected in singeing shell 11's inside, and shock absorber 12 includes: an upper shock absorbing wheel 121, the upper shock absorbing wheel 121 is positioned in the upper chamber of the singeing shell 111, two ends are arranged at two sides of the upper shock absorbing wheel 121, a lower shock absorbing wheel 122, the lower shock absorbing wheel 122 is positioned in the upper chamber of the singeing shell 111, two ends are arranged at two sides of the lower shock absorbing wheel 122, an upper shock absorbing gear 123 is connected at two sides of the upper shock absorbing wheel 121, two groups of upper shock absorbing gears 123 are arranged, a lower shock absorbing gear 124 is connected at two sides of the lower shock absorbing wheel 122, two groups of lower shock absorbing gears 124 are arranged at two sides of the lower shock absorbing gear 124, a shock absorbing lock 125 is positioned at two sides of the upper shock absorbing wheel 121 and the lower shock absorbing wheel 122, an upper section and a lower section are arranged on the shock absorbing lock 125, six groups of shock absorbing springs 126 are arranged on the shock absorbing lock 125, the singeing device 13 is connected in the singeing shell, the singeing device 13 is located at the rear end of the shock absorbing device 12, and the singeing device 13 further comprises: the singeing outer wheel 131 is connected with the inner part of the upper chamber of the singeing shell 111, an opening is arranged right below the singeing outer wheel, the singeing gear 132 is positioned at two sides of the singeing outer wheel 131, the singeing inner wheel 133 is positioned in the singeing outer wheel 131, a grid net is arranged on the surface of the singeing inner wheel 133, an upper singeing pipeline 136 is arranged, the upper singeing pipeline 136 is positioned below the singeing outer wheel, the opening of the upper singeing pipeline 136 is opposite to the grid opening right below the singeing inner wheel 133, a lower singeing pipeline 138 is connected with the lower part of the upper singeing pipeline 136, four upright posts are arranged on the surface of the lower singeing pipeline 138, the heating pipe 134 is positioned in the singeing outer wheel 133, a plurality of groups of guide pipes are arranged at the front end of the heating pipe 134, the cooling pipe 135 is positioned in the singeing inner wheel 133, a plurality of groups of guide pipes are arranged at the front end of the cooling pipe 135, the cooling pipe 135 is alternately arranged in the front end of the cooling, singeing spring 137, singeing spring 137 connects on the stand that singeing pipe 138 surface set up down, and singeing spring 137 is provided with four, and shaving device 14, shaving device 14 are connected in the inside of singeing shell 11, and shaving device 14 is located the rear end of singeing device 13, and shaving device 14 still includes: the shaving shell 141, the shaving shell 141 is connected inside the last bin of the singeing shell 111, the lower surface of the shaving shell 141 is provided with a hole, the inner wall of the shaving shell 141 is provided with an upper fixing table and a lower fixing table, an upper shaving blade 143, the upper shaving blade 143 is connected on the fixing table above the inner wall of the shaving shell 141, an upper shaving pressing sheet 142 is connected at the upper end of the shaving shell 141, the upper shaving pressing sheet 142 is located above the upper shaving blade 143, a lower shaving blade 144 is connected on the fixing table below the inner wall of the shaving shell 141, the lower shaving pressing sheet 145 is connected at the lower end of the shaving shell 141, the lower shaving pressing sheet 145 is located below the lower shaving blade 144, a shaving collecting box 146 is connected, and the shaving collecting box 146 is located at the lower end of the shaving shell 141.

Dust removal mechanism 2, dust removal mechanism 2 set up subaerial, and dust removal mechanism 2 is located the rear end of singeing mechanism 1, and dust removal mechanism 2 includes: conveyer 21, conveyer 21 sets up on ground, and conveyer 21 still includes: conveying support 211, conveying support 211 is set on the ground, conveying support 211 is located the rear of cabin under singeing shell 111, conveying shell 212 is connected in the top of conveying support 211, conveying shell 212 is located the rear of cabin on singeing shell 111, conveying collection box 213 is connected in the left side of conveying shell 212, conveying motor 214 is located the right side of conveying shell 212, go up conveying sweeping wheel 215, it connects in the top of conveying motor 214 to go up conveying sweeping wheel 215, it is provided with the brush on conveying sweeping wheel 215 surface, lower conveying sweeping wheel 216 is connected in the below of conveying motor 214, lower conveying sweeping wheel 216 surface is provided with the brush, pinch roller device 22 is located the top of conveying device 21, pinch roller device 22 is provided with the multiunit, pinch roller device 22 still includes: pinch roller inner ring 224, pinch roller inner ring 224 is connected in the inside of conveying shell 212, the surface of pinch roller inner ring 224 is provided with the hole, pinch roller outer loop 222 is located the outside of pinch roller inner ring 224, the surface of pinch roller outer loop 222 is provided with the hole, pinch roller board 221, the bottom of pinch roller board 221 is connected in the hole of pinch roller inner ring 224, the bottom of pinch roller board 221 is provided with the end, pinch roller spring 223 connects the lower extreme at pinch roller board 221, pinch roller spring 223 is located the intermediate layer of pinch roller planking and pinch roller inner panel.

Printing and dyeing mechanism 3, printing and dyeing mechanism 3 are located to set up subaerial, and printing and dyeing mechanism 3 is located the rear of dust removal mechanism 2, and printing and dyeing mechanism 3 includes: printing and dyeing casing 31, printing and dyeing casing 31 sets up on ground, and printing and dyeing casing 31 still includes: the printing and dyeing shell 311 is arranged on the ground, a hole is formed in the left surface of the printing and dyeing shell 311, the printing and dyeing shell 311 is located at the rear end of the conveying bracket 211, and the printing and dyeing pipe 312 is located in the hole in the right side of the printing and dyeing shell 311.

Example two:

as in the first embodiment, the singeing mechanism 1 being disposed on the ground, the singeing mechanism 1 comprising: singeing shell 11, singeing shell 11 sets up subaerial, and singeing shell 11 still includes: singeing shell 111, singeing shell 11 set up subaerial, and two bins about singeing shell 111 is provided with, shock absorber 12, and shock absorber 12 is connected in singeing shell 11's inside, and shock absorber 12 includes: an upper shock absorbing wheel 121, the upper shock absorbing wheel 121 is located inside the upper chamber of the singeing housing 111, two sides of the upper shock absorbing wheel 121 are provided with end heads, a lower shock absorbing wheel 122, the lower shock absorbing wheel 122 is located inside the upper chamber of the singeing housing 111, two sides of the lower shock absorbing wheel 122 are provided with end heads, an upper shock absorbing gear 123 is connected to two sides of the upper shock absorbing wheel 121, two groups of upper shock absorbing gears 123 are provided, two groups of lower shock absorbing gears 124 are provided, two groups of shock absorbing latches 125 are provided, the shock absorbing latches 125 are located on two sides of the upper shock absorbing wheel 121 and the lower shock absorbing wheel 122, the shock absorbing latches 125 are provided with upper and lower sections, six groups of shock absorbing latches 125 are provided, shock absorbing springs 126 are connected to the shock absorbing latches 125, and the shock absorbing springs 121 and the lower shock absorbing wheels 122 play a role in adjusting when the latches receive cloth materials, along with the switching of shock absorber hasp 125, the crack of going up shock absorber wheel 121 and lower shock absorber wheel 122 is opened and shut apart from also random adjustment, when adaptation cloth thickness, also can carry out the centre gripping to the cloth, singeing device 13 is connected in the inside of singeing casing 11, and two sets of about singeing device is provided with, and singeing device 13 is located shock absorber 12's rear end, and singeing device 13 still includes: the singeing outer wheel 131 is connected with the inner part of the upper chamber of the singeing shell 111, an opening is arranged right below the singeing outer wheel, the singeing gear 132 is positioned at two sides of the singeing outer wheel 131, the singeing inner wheel 133 is positioned in the singeing outer wheel 131, a grid net is arranged on the surface of the singeing inner wheel 133, an upper singeing pipeline 136 is arranged, the upper singeing pipeline 136 is positioned below the singeing outer wheel, the opening of the upper singeing pipeline 136 is opposite to the grid opening right below the singeing inner wheel 133, a lower singeing pipeline 138 is connected with the lower part of the upper singeing pipeline 136, four upright posts are arranged on the surface of the lower singeing pipeline 138, the heating pipe 134 is positioned in the singeing outer wheel 133, a plurality of groups of guide pipes are arranged at the front end of the heating pipe 134, the cooling pipe 135 is positioned in the singeing inner wheel 133, a plurality of groups of guide pipes are arranged at the front end of the cooling pipe 135, the cooling pipe 135 is alternately arranged in the front end of the cooling, also can burn to the surface of cloth when having avoided the singeing to produce to the cloth and damage, singeing spring 137 connects on the stand that singeing pipe 138 surface set up down, and singeing spring 137 is provided with four, scrapes hair device 14 and connects in the inside of singeing casing 11, scrapes hair device 14 and is located the rear end of singeing device 13, and it still includes to scrape hair device 14: the shaving shell 141, the shaving shell 141 is connected inside the last bin of the singeing shell 111, the lower surface of the shaving shell 141 is provided with a hole, the inner wall of the shaving shell 141 is provided with an upper fixing table and a lower fixing table, an upper shaving blade 143, the upper shaving blade 143 is connected on the fixing table above the inner wall of the shaving shell 141, an upper shaving pressing sheet 142 is connected at the upper end of the shaving shell 141, the upper shaving pressing sheet 142 is located above the upper shaving blade 143, a lower shaving blade 144 is connected on the fixing table below the inner wall of the shaving shell 141, the lower shaving pressing sheet 145 is connected at the lower end of the shaving shell 141, the lower shaving pressing sheet 145 is located below the lower shaving blade 144, a shaving collecting box 146 is connected, and the shaving collecting box 146 is located at the lower end of the shaving shell 141.

Dust removal mechanism 2, dust removal mechanism 2 set up subaerial, and dust removal mechanism 2 is located the rear end of singeing mechanism 1, and dust removal mechanism 2 includes: conveyer 21, conveyer 21 sets up on ground, and conveyer 21 still includes: conveying support 211, conveying support 211 is set on the ground, conveying support 211 is located the rear of cabin under singeing shell 111, conveying shell 212 is connected in the top of conveying support 211, conveying shell 212 is located the rear of cabin on singeing shell 111, conveying collection box 213 is connected in the left side of conveying shell 212, conveying motor 214 is located the right side of conveying shell 212, go up conveying sweeping wheel 215, it connects in the top of conveying motor 214 to go up conveying sweeping wheel 215, it is provided with the brush on conveying sweeping wheel 215 surface, lower conveying sweeping wheel 216 is connected in the below of conveying motor 214, lower conveying sweeping wheel 216 surface is provided with the brush, pinch roller device 22 is located the top of conveying device 21, pinch roller device 22 is provided with the multiunit, pinch roller device 22 still includes: pinch roller inner ring 224, pinch roller inner ring 224 is connected in the inside of conveying shell 212, the surface of pinch roller inner ring 224 is provided with the hole, pinch roller outer loop 222 is located the outside of pinch roller inner ring 224, the surface of pinch roller outer loop 222 is provided with the hole, pinch roller board 221, the bottom of pinch roller board 221 is connected in the hole of pinch roller inner ring 224, the bottom of pinch roller board 221 is provided with the end, pinch roller spring 223 connects the lower extreme at pinch roller board 221, pinch roller spring 223 is located the intermediate layer of pinch roller planking and pinch roller inner panel.

Printing and dyeing mechanism 3, printing and dyeing mechanism 3 are located to set up subaerial, and printing and dyeing mechanism 3 is located the rear of dust removal mechanism 2, and printing and dyeing mechanism 3 includes: printing and dyeing casing 31, printing and dyeing casing 31 sets up on ground, and printing and dyeing casing 31 still includes: printing and dyeing shell 311, printing and dyeing shell 311 set up subaerial, and printing and dyeing shell 311's left surface is provided with the hole, and printing and dyeing shell 311 is located the rear end of conveying support 211, printing and dyeing pipe 312, and printing and dyeing pipe 312 is located the hole on printing and dyeing shell 311's right side, pan feeding device 32, and pan feeding device 32 connects in the inside of printing and dyeing casing 31, and pan feeding device 32 still includes: the printing and dyeing machine comprises a feeding shell 321, the feeding shell 321 is connected inside the printing and dyeing shell 311, holes are formed in two ends of the feeding shell 321, a feeding pressure end 322 is arranged, the feeding pressure end 322 is located on two sides of the feeding shell 321, two groups of feeding pressure ends 322 are arranged, a feeding wheel plate 323 is connected to the inner side of the feeding pressure end 322, holes are formed in the lower bottom surface of the feeding wheel plate 323, and thirteen feeding wheel plates 323 are arranged. When the feeding wheel plate 323 rotates anticlockwise when the feeding end 322 of the feeding device 32 rotates anticlockwise during printing and dyeing, holes below the feeding wheel plate 323 are in an open state, new dyes are added while the dyes are stirred, when the feeding end 322 of the feeding device 32 rotates clockwise, the feeding end 322 drives the feeding wheel plate 323 to rotate clockwise, holes below the feeding wheel plate 323 are in a closed state, the feeding pipeline is closed while the dyes are stirred, the rotating directions are different, the folding effect of multiple groups of feeding wheel plates 323 is achieved, and the problem that the dyes are easy to agglomerate when stored is solved.

Example three:

a use method of the dust removal printing and dyeing device comprises the following steps:

when the singeing mechanism 1 is started, the cloth first enters the damper device 12, and the cloth is continuously fed forward in the upper damper wheel 121 and the lower damper wheel 122.

When the cloth is shaken during feeding, the shock absorbing buckles 125 fixed on both sides of the upper shock absorbing wheel 121 and the lower shock absorbing wheel 122 are vibrated, and the vibration is eliminated by the shock absorbing springs 126 on the shock absorbing buckles 125.

After the cloth is sent into the singeing device 13 from the shock absorber 12, the lower singeing pipe 138 and the singeing spring 137 clamp the cloth and adapt to the cloth with different thicknesses when the cloth enters the shock absorber 12 through the pressure regulation of the spring, when the cloth passes through the inside of the singeing device 13, the outlets of the upper and lower singeing pipes are aligned with the cloth, the heating pipe 134 and the cooling pipe 135 inside the singeing device 13 are arranged in a crossed manner, the upper singeing device 13 and the lower singeing device 13 heating pipe 134 and the cooling pipe 135 are also arranged in a crossed manner, and when the upper singeing device 13 heating pipe 134 singes through the lower singeing pipe 138, the lower singeing device 13 cooling pipe 135 humidifies and cools the other side of the cloth. The singed cloth enters the dehairing device 14, the burned thread ends on the cloth are removed by the upper dehairing blade 143 and the lower dehairing blade 144, the upper dehairing blade 143 and the lower dehairing blade 145 extrude the upper dehairing blade 143 and the lower dehairing blade 144 inwards to clean the surface of the cloth, and the scraped thread ends are sent into the dehairing collecting box 146.

The cloth is sent into conveyer 21 at the backup that the hair is scraped, conveyer 21 front end's last conveying sweep wheel 215 and lower conveying sweep wheel 216 clean the surface of cloth, pinch roller device 22 of both sides is pressed and is held the feed at the both ends of cloth, pinch roller device 22's pinch roller board 221 is after touching the cloth, inwards rises again, press and hold the cloth through pinch roller spring 223, the inside fan of conveying shell 212 continues to clean the drying to the cloth, finally, the cloth gets into printing and dyeing apparatus, printing and dyeing apparatus carries out printing and dyeing to the cloth.

Although the illustrative embodiments of the present invention have been described above to enable those skilled in the art to understand the present invention, the present invention is not limited to the scope of the embodiments, and it is apparent to those skilled in the art that all the inventive concepts using the present invention are protected as long as they can be changed within the spirit and scope of the present invention as defined and defined by the appended claims.

Claims (8)

1. A dust removal printing device, characterized by comprising:

singeing mechanism, singeing mechanism sets up subaerial, singeing mechanism includes:

the singeing shell is arranged on the ground;

a shock absorbing device connected inside the singeing housing, the shock absorbing device including:

the upper shock absorbing wheel is positioned in the upper bin of the singeing shell, and end heads are arranged on two sides of the upper shock absorbing wheel;

the lower shock absorbing wheel is positioned in the upper bin of the singeing shell, and end heads are arranged on two sides of the lower shock absorbing wheel;

the upper shock absorption gears are connected to two sides of the upper shock absorption wheel, and two groups of the upper shock absorption gears are arranged;

the lower shock absorption gears are connected to two sides of the lower shock absorption wheel, and two groups of the lower shock absorption gears are arranged;

the shock-absorbing lock catches are positioned on two sides of the upper shock-absorbing wheel and the lower shock-absorbing wheel, the shock-absorbing lock catches are provided with an upper section and a lower section, and the shock-absorbing lock catches are provided with six groups;

the shock-absorbing spring is connected to the shock-absorbing lock catch;

the singeing device is connected inside the singeing shell, the sweeping device is provided with an upper group and a lower group, and the singeing device is positioned at the rear end of the shock absorption device;

the hair scraping device is connected inside the singeing shell and is positioned at the rear end of the singeing shell;

dust removal mechanism, dust removal mechanism sets up subaerial, dust removal mechanism is located singeing mechanism's rear end, dust removal mechanism includes:

the conveying device is arranged on the ground;

the pressing wheel device is positioned above the conveying device and is provided with a plurality of groups;

printing and dyeing mechanism, printing and dyeing mechanism is located set up subaerial, printing and dyeing mechanism is located dust removal mechanism's rear, printing and dyeing mechanism includes:

the printing and dyeing shell is arranged on the ground;

and the feeding device is connected to the inside of the printing and dyeing shell.

2. The dust extraction printing apparatus of claim 1, wherein the singeing housing further comprises:

the singeing shell is arranged on the ground, and the singeing shell is provided with an upper bin and a lower bin.

3. The dust removing printing and dyeing apparatus of claim 1, wherein the singeing apparatus further comprises:

the singeing outer wheel is connected inside the upper bin of the singeing shell, and an opening is formed right below the singeing outer wheel;

singeing gears positioned on both sides of the singeing outer wheel;

the inner singeing wheel is positioned inside the outer singeing wheel, and a grid net is arranged on the surface of the inner singeing wheel;

the upper singeing pipeline is positioned below the outer singeing wheel, and an opening of the upper singeing pipeline is opposite to a grid opening right below the inner singeing wheel;

the lower singeing pipeline is connected below the upper singeing pipeline, and four stand columns are arranged on the surface of the lower singeing pipeline;

the heating pipe is positioned inside the singeing inner wheel, and the front end of the heating pipe is provided with a plurality of groups of guide pipes;

the cooling pipe is positioned inside the inner singeing wheel, a plurality of groups of guide pipes are arranged at the front end of the cooling pipe, and the guide pipes at the front end of the cooling pipe and the guide pipes at the front end of the heating pipe are alternately arranged;

and the singeing springs are connected to the stand columns arranged on the surface of the lower singeing pipeline, and the number of the singeing springs is four.

4. A dust removing printing and dyeing apparatus according to claim 1, wherein said shaving means further comprises:

the shaving shell is connected inside the upper bin of the singeing shell, a hole is formed in the lower surface of the shaving shell, and an upper pair of fixing tables and a lower pair of fixing tables are arranged on the inner wall of the shaving shell;

the upper shaving knife is connected to the fixed table above the inner wall of the shaving shell;

the upper hair scraping pressing sheet is connected to the upper end of the hair scraping shell and is positioned above the upper hair scraping knife;

the lower shaving knife is connected to the fixed table below the inner wall of the shaving shell;

the lower shaving pressing sheet is connected to the lower end of the shaving shell and is positioned below the lower shaving knife;

and the shaving collection box is positioned at the lower end of the shaving shell.

5. A dust extraction printing apparatus according to claim 1, wherein the transfer means further comprises:

the conveying bracket is arranged on the ground and is positioned behind the lower chamber of the singeing shell;

the conveying shell is connected above the conveying support and is positioned behind the upper chamber of the singeing shell;

a conveying collection box connected to the left side of the conveying housing;

a transfer motor located at a right side of the transfer housing;

the upper conveying sweeping wheel is connected above the conveying motor, and a brush is arranged on the surface of the upper conveying sweeping wheel;

the lower conveying sweeping wheel is connected below the conveying motor, and a brush is arranged on the surface of the lower conveying sweeping wheel.

6. A dust extraction printing apparatus according to claim 1, wherein the pinch roller assembly further comprises:

the inner ring of the pressing wheel is connected to the inside of the conveying shell, and a hole is formed in the surface of the inner ring of the pressing wheel;

the outer ring of the pressing wheel is positioned on the outer side of the inner ring of the pressing wheel, and a hole is formed in the surface of the outer ring of the pressing wheel;

the bottom of the pressure wheel plate is connected in the hole of the inner ring of the pressure wheel, and the bottom end of the pressure wheel plate is provided with an end head;

the pinch roller spring is connected to the lower end of the pinch roller plate and located in an interlayer between the pinch roller outer plate and the pinch roller inner plate.

7. A dust extraction printing apparatus according to claim 1, wherein the printing housing further comprises:

the printing and dyeing shell is arranged on the ground, a hole is formed in the left surface of the printing and dyeing shell, and the printing and dyeing shell is located at the rear end of the conveying support;

the printing and dyeing pipe is positioned in the hole on the right side of the printing and dyeing shell.

8. A use method of the dust removal printing and dyeing device comprises the following steps:

starting a singeing mechanism, wherein cloth firstly enters a shock absorption device, the cloth is continuously fed forwards in an upper shock absorption wheel and a lower shock absorption wheel, and when the cloth shakes during feeding, shock absorption buckles fixed on two sides of the upper shock absorption wheel and the lower shock absorption wheel eliminate the shock when the shock absorption buckles are subjected to shock through shock absorption springs on the shock absorption buckles;

after the cloth is sent into the singeing device from the shock absorber, the lower singeing pipeline and the singeing spring clamp the cloth and adapt to the cloth with different thicknesses through the pressure regulation of the spring when the cloth enters the shock absorber, when the cloth passes through the inside of the singeing device, the outlets of the upper pressing pipeline and the lower pressing pipeline are aligned with the cloth, the heating pipe and the cooling pipe in the singeing device are arranged in a crossed manner, the upper singeing device and the lower singeing device heating pipe are also arranged in a crossed manner, and when the upper singeing device heating pipe singes through the lower singeing pipeline, the lower singeing device cooling pipe humidifies and cools the other surface of the cloth;

the singed cloth enters a singeing device, the singed thread ends on the cloth are removed by an upper singeing blade and a lower singeing blade, the upper singeing blade and the lower singeing blade extrude the upper singeing blade and the lower singeing blade inwards to clean the surface of the cloth, and the singed thread ends are sent into a singeing collecting box;

the cloth is at the reserve conveyer of sending into that the hair is finished scraping, the last conveying of conveyer front end is swept the wheel and is cleaned the surface of wheel pair cloth with conveying down, the pinch roller device of both sides is pressed the both ends of cloth and is held and send into, pinch roller device's pinch roller board is after touching the cloth, and inside rebound is pressed the cloth through the pinch roller spring and is held, and the inside fan of conveying shell lasts and carries out the drying to the cloth, and at last, the cloth gets into printing and dyeing apparatus, and printing and dyeing apparatus carries out printing and dyeing to the cloth.

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