CN210215854U

CN210215854U - Fabric printing and dyeing cleaning device

Info

Publication number: CN210215854U
Application number: CN201920617691.8U
Authority: CN
Inventors: Jingming Qiao; 乔景明
Original assignee: Zhejiang New Ztex Industrial Co Ltd
Current assignee: Zhejiang New Ztex Industrial Co Ltd
Priority date: 2019-04-30
Filing date: 2019-04-30
Publication date: 2020-03-31
Anticipated expiration: 2029-04-30

Abstract

The utility model discloses a surface fabric printing and dyeing cleaning device, including ferment case, clean case and air heater, the output of ferment case communicates with each other and is connected with the drying chamber, the inside output that corresponds the feed inlet of clean case has the scraper blade through branch fixed mounting to the output that corresponds the scraper blade has a brush board through branch fixed mounting, the inside fixed mounting of clean case has electrostatic generator, electrostatic generator's output has electrostatic adsorption roller through static derivation post fixed mounting. This surface fabric printing and dyeing cleaning device possesses effectively to the surperficial hair of surface fabric and impurity clearance, and is with low costs to the surface fabric clearance, and the advantage that the effect is good has solved when treating the surface fabric clearance impurity of printing and dyeing and the surperficial hair of surface fabric through the manual work now, and the clearance effect is not good to and remove the problem of hair operating cost height, bulky, the small amount of surface fabric clearance of being not convenient for through the singeing device in the contrast file to the surface fabric.

Description

Fabric printing and dyeing cleaning device

Technical Field

The utility model relates to a surface fabric printing and dyeing technical field specifically is a surface fabric printing and dyeing cleaning device.

Background

Most of the fabrics can be stained with a lot of dust and impurities before printing and dyeing, and certain fabric hair can be generated on the surfaces of the fabrics due to friction in production, so that the fabrics need to be cleaned before printing, the hair, the impurities and the like on the surfaces of the fabrics are cleaned, the fabrics are cleaned in a manual shaking mode at present, the cleaning effect is not ideal, and the hair and the impurities on the surfaces of the fabrics float in the air in shaking, so that the working environment is polluted.

Disclosed in current patent application No. 201820936456.2 a surface fabric printing and dyeing cleaning device, set gradually the vibrating roller in clean incasement portion, the singeing device, the vibrating roller shakes the impurity that shakes off the surface fabric surface to the clear surface fabric of needs, the dust removal motor operation is through the dust absorption mouth to the dust impurity extraction of clean incasement portion, the singeing device burns off the clearance to the hair on surface fabric surface, but the singeing device volume is comparatively huge, it is higher to the surface fabric singeing cost of operation through the singeing device, be not convenient for to a small amount of surface fabric clearance, and can not be fine to the stubborn impurity in surface fabric surface through the vibration shake off, it is not good to surface fabric clearance effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a surface fabric printing and dyeing cleaning device possesses effectively to the hair and the impurity clearance on surface fabric surface, and is with low costs to surface fabric clearance, and the advantage that the effect is good has solved when treating the hair on printing and dyeing surface fabric clearance impurity and surface fabric surface through the manual work now, and the clearance effect is not good to and remove the hair operating cost height to the surface fabric through the singeing device in the contrast file, it is bulky, be not convenient for to the problem of a small amount of surface fabric clearance.

In order to achieve the above object, the utility model provides a following technical scheme: a fabric printing and dyeing cleaning device comprises a ferment box, a cleaning box and an air heater, wherein a unreeling shaft is fixedly arranged on the side edge of the ferment box through a support, an auxiliary roller is fixedly arranged in the ferment box, the output end of the ferment box is communicated and connected with a drying chamber, a water absorbing roller is fixedly arranged in the drying chamber corresponding to the output end of the ferment box through a second support, the air heater is fixedly arranged at the top of the drying chamber corresponding to the output end of the water absorbing roller, the input end of the cleaning box is communicated and connected with the inside of the drying chamber through a feed inlet, a scraping plate is fixedly arranged on the output end of the cleaning box corresponding to the feed inlet through a support rod, a brush plate is fixedly arranged on the output end of the scraping plate through a support rod, an electrostatic generator is fixedly arranged in the cleaning box, an electrostatic adsorption roller is fixedly arranged on the output end of the electrostatic generator through an electrostatic discharge outlet, and a winding shaft is fixedly arranged corresponding to the discharge hole through a support frame.

Preferably, the ferment case is inside to be had the (mixing) shaft through agitator motor fixed mounting, the (mixing) shaft corresponds the inside fixed mounting of ferment case and has helical blade.

Preferably, the top of cleaning box is fixedly provided with an exhaust fan, and the input end of the exhaust fan is communicated and connected with the drying chamber and the interior of the cleaning box through an exhaust pipe.

Preferably, the bottom in the cleaning box is provided with a second supporting rod with the same structure as the supporting rod, and the scraping plate and the brush plate at the tail end of the second supporting rod are arranged corresponding to the scraping plate and the brush plate at the tail end of the supporting rod.

Preferably, the two ends in the feed inlet are provided with hair sticking rollers through a cleaning box.

Preferably, the inside of the ferment case is injected with hair removal ferment water, and the water level line of the hair removal ferment water is higher than the height of the auxiliary roller.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model is characterized in that an enzyme box is arranged at the input end of a cleaning box, a drying chamber is arranged between the enzyme box and the cleaning box, a fabric to be cleaned is wound on an unwinding shaft, the end of the fabric passes through an auxiliary roller and a water absorbing roller inside the drying chamber in sequence, penetrates into the cleaning box through a feed inlet on the side edge of the cleaning box, passes through a scraper and a scraper blade and then passes through a discharge port, and is fixedly installed with the winding shaft, the input end of the winding shaft is connected with a mechanism for driving the winding shaft to rotate, the driving mechanism is connected with a power supply to operate and drive the winding shaft to rotate so as to wind the fabric, the fabric moves inside the cleaning box, the drying chamber and the enzyme box in the winding process, the fabric removes hair through water logging enzyme soaking inside the enzyme box, so that hair and impurities attached to the surface of the fabric are soaked and removed by the enzyme, the fabric moves to the drying chamber along with the winding shaft, the water absorbing roller inside the, the air heater is connected with the power supply and is operated to produce hot-blastly, and export hot-blastly to the surface fabric, through hot-blastly to surface fabric stoving operation, the surface fabric after the stoving is along with the removal of surface fabric to clean incasement portion, the scraper blade and the scraper blade of clean incasement portion strike off the hair and the impurity on surface fabric surface once more, and play through the brush board to the brush that falls down on surface fabric surface, the operation of static generator connection power supply produces static, static exports the post through static and exports to the electrostatic absorption roller, through the electrostatic absorption roller to the hair electrostatic absorption on surface fabric surface, the winding shaft is along with actuating mechanism's drive to the surface fabric rolling after the static defeathering, improve the clear efficiency of surface fabric, and to the clean effect of surface.

Drawings

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

In the figure: a ferment case 1; a cleaning tank 2; a hot air blower 3; unwinding the reel 4; an auxiliary roller 5; a drying chamber 6; a suction roll 7; a squeegee 8; a brush plate 9; an electrostatic adsorption roller 10; a winding shaft 11; an exhaust fan 12.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, the utility model provides a fabric printing and dyeing cleaning device, including ferment case 1, clean case 2 and air heater 3, the installation of branch to scraper blade 8 and brush board 9 makes the terminal of scraper blade 8 and brush board 9 and the fabric surface contact after rolling and straightening through rolling axle 4, set up ferment case 1 at the input of drying chamber 6, and at ferment case 1 internal installation auxiliary roller 5, coil the fabric that waits to clean on unreeling axle 4, the terminal of fabric passes auxiliary roller 5, after the inside suction roll 7 of drying chamber in proper order, penetrate inside clean case 2 through the feed inlet of clean case 2 side, and pass through the discharge gate after passing between scraper blade 8, the brush 9 board, with rolling axle 11 fixed mounting, make the fabric can soak in the ferment aquatic in ferment case 1 through auxiliary roller 5; the output end of the enzyme box 1 inside the drying chamber is in contact with the fabric through a water suction roller 7, the fabric moves to the drying chamber 6 along with the winding shaft 11, the water suction roller 7 inside the drying chamber 6 supports the fabric and sucks enzyme moisture in the fabric, and the hot air heater 3 is convenient for drying the fabric; during drying, the hot air blower 3 is arranged on the fabric in the drying process, the hot air blower 3 is arranged by adopting an IHF-R20Y-2 circulating hot air blower, the hot air blower 3 is connected with a power supply to operate to generate hot air, the hot air is output to the fabric, and the fabric is dried by the hot air, so that the cleaning box 2 can conveniently clean impurities and hairs on the surface of the fabric after the enzymes remove hairs; the cleaning box 2 is internally provided with a scraper 8 and a brush plate 9, the scraper 8 and the brush plate 9 in the cleaning box 2 scrape off hairs and impurities on the surface of the fabric again, the brush plate 9 lifts up the fallen hairs on the surface of the fabric, the electrostatic generator is arranged by adopting an FRAER7130-T5 electrostatic generator, the electrostatic generator is connected with a power supply to operate to generate static electricity, the static electricity is output to an electrostatic adsorption roller 10 through an electrostatic lead-out column, the hairs on the surface of the fabric are electrostatically adsorbed by the electrostatic adsorption roller 10, and a winding shaft 11 winds up the fabric after electrostatic hair removal along with the driving of a driving mechanism;

a stirring shaft with helical blades is installed inside the ferment box 1 through a stirring motor, when the ferment water soaks and unhairing the fabric, the stirring motor is arranged by YB22L1-6, the stirring motor is connected with a power supply to drive the stirring shaft to operate, the stirring shaft rotates the helical blades inside the ferment box 1, and the ferment water inside the ferment box 1 is stirred through the helical blades to avoid the ferment water from precipitating;

the top of the cleaning box 2 is provided with an exhaust fan 12, the input end of the exhaust fan 12 is communicated and connected with the inside of the drying box and the cleaning box 2 through an exhaust pipe, the exhaust fan 12 is arranged by adopting a TS-200 small centrifugal exhaust fan, when a hot air fan 3 in the drying chamber 6 outputs hot air to dry the fabric, moisture in the fabric heated by the fabric is heated and evaporated in the drying chamber 6, the exhaust pipe extracts and exhausts damp and hot air in the drying chamber 6 along with the operation of the exhaust fan 12, the drying degree in the drying chamber 6 is improved, the fabric drying operation is facilitated, the exhaust pipe is communicated and connected with the inside of the cleaning box 2, fallen wool and impurities on the surface of the fabric are scraped by the scraping plate 8 and the brush plate 9 to generate flying wool, and the flying wool in the cleaning box 2 is extracted by the exhaust pipe along with the operation of the exhaust fan;

a second supporting rod with the same structure as the supporting rod is arranged at the bottom in the cleaning box 2, so that the second supporting rod, a scraping plate 8 and a brushing plate 9 at the tail end of the supporting rod clamp the fabric to brush impurities and hairs on the surface of the fabric, and the effect of cleaning the fabric is improved;

two ends inside the feeding port are provided with hair sticking rollers through a cleaning box 2, the hair sticking rollers are in output meshing contact with the fabric, and impurities left by enzyme water hair removal on the surface of the fabric are stuck and removed;

the inside hair removal ferment water horizon of ferment case 1 is higher than auxiliary roller 5 for auxiliary roller 5 is taken over the back to the panel and is soaked in hair removal ferment aquatic in ferment case 1, improves hair removal ferment water and removes hair effect to the panel.

In summary, the following steps: the fabric printing and dyeing cleaning device is characterized in that an enzyme box 1 is arranged at the input end of a cleaning box 2, a drying chamber is arranged between the enzyme box 1 and the cleaning box 2, fabric to be cleaned is wound on an unwinding shaft 4, the tail end of the fabric sequentially passes through an auxiliary roller 5 and a water suction roller 7 in the drying chamber 6, penetrates into the cleaning box 2 through a feed inlet on the side edge of the cleaning box 2, passes through a scraper 8 and a brush plate 9 and then passes through a discharge outlet, and is fixedly installed with a winding shaft 11, the input end of the winding shaft 11 is connected with a mechanism for driving the winding shaft 11 to rotate, the driving mechanism is selectively arranged by adopting a 70SZ series direct current servo motor, the driving mechanism is connected with a power supply to operate to drive the winding shaft 11 to rotate and wind the fabric, the fabric moves in the cleaning box 2, the drying chamber 6 and the enzyme box 1 in the winding process, the fabric is soaked in enzyme water to remove hairs through the enzymes in the enzyme box 1, so that hairs attached to the, the fabric moves to the drying chamber 6 along with the winding shaft 11, the water absorbing roller 7 in the drying chamber 6 supports and absorbs enzyme moisture in the fabric, the air heater 3 is connected with a power supply to operate to generate hot air and output the hot air to the fabric, the fabric is dried through the hot air, the dried fabric moves to the inside of the cleaning box 2 along with the fabric, the scraper 8 and the brush plate 9 in the cleaning box 2 scrape off hairs and impurities on the surface of the fabric again, the brush plate 9 lifts the brushes on the surfaces of the fabric, the electrostatic generator is connected with the power supply to operate to generate static electricity, the static electricity is output to the electrostatic adsorption roller 10 through the static electricity leading-out column, the hairs on the surface of the fabric are electrostatically adsorbed through the electrostatic adsorption roller 10, the winding shaft 11 winds the fabric after the hairs are removed along with the driving of the driving mechanism, and the problem that when the impurities and the hairs on the surface of the fabric are manually cleaned in the prior art is solved, the cleaning effect is not good, and the operation cost for removing the hair of the fabric through the singeing device in the comparison file is high, the size is large, and the small quantity of fabric is not convenient to clean.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a surface fabric printing and dyeing cleaning device, includes ferment case (1), clean case (2) and air heater (3), its characterized in that: the side of the ferment case (1) is provided with a unreeling shaft (4) through a support fixed mounting, the inside fixed mounting of the ferment case (1) is provided with an auxiliary roller (5), the output end of the ferment case (1) is connected with a drying chamber (6) in a communicating way, the inside output end of the ferment case (1) corresponding to the inside of the drying chamber (6) is provided with a water absorbing roller (7) through two support fixed mountings, the inside top of the drying chamber (6) corresponding to the output end of the water absorbing roller (7) of the hot air blower (3) is connected with the inside of the drying chamber (6) through a feed inlet in a communicating way, the inside output end of the cleaning case (2) corresponding to the feed inlet is provided with a scraper (8) through a support rod fixed mounting, the inside of the cleaning case (2) is provided with an electrostatic generator through a support rod fixed mounting of a brush plate, the output of electrostatic generator has electrostatic adsorption roller (10) through static derivation post fixed mounting, the discharge gate has been seted up with the side that electrostatic adsorption roller (10) output corresponds in cleaning box (2) to correspond the discharge gate and pass through support frame fixed mounting and have rolling axle (11).

2. A fabric printing and dyeing cleaning apparatus according to claim 1, characterized in that: enzyme case (1) is inside to have the (mixing) shaft through agitator motor fixed mounting, the (mixing) shaft corresponds enzyme case (1) inside fixed mounting has helical blade.

3. A fabric printing and dyeing cleaning apparatus according to claim 1, characterized in that: the top fixed mounting of cleaning box (2) has air exhauster (12), the input of air exhauster (12) communicates with each other through exhaust column and drying chamber (6) and cleaning box (2) inside and is connected.

4. A fabric printing and dyeing cleaning apparatus according to claim 1, characterized in that: the bottom is provided with the branch two unanimous with the branch structure in clean box (2), two terminal scraper blades (8) of branch and brush board (9) and the terminal scraper blade (8) of branch and brush board (9) correspond the setting.

5. A fabric printing and dyeing cleaning apparatus according to claim 1, characterized in that: the inside both ends of feed inlet are installed through cleaning box (2) and are glued the hair roller.

6. A fabric printing and dyeing cleaning apparatus according to claim 1, characterized in that: the inside injection of ferment case (1) has the enzyme water of removing hair, the water level line of enzyme water of removing hair is higher than the height of auxiliary roller (5).