CN109203657A - A kind of quantitative feed textile printing device - Google Patents
A kind of quantitative feed textile printing device Download PDFInfo
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- CN109203657A CN109203657A CN201811032632.0A CN201811032632A CN109203657A CN 109203657 A CN109203657 A CN 109203657A CN 201811032632 A CN201811032632 A CN 201811032632A CN 109203657 A CN109203657 A CN 109203657A
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- Prior art keywords
- quantitative
- synchronous
- component
- printing
- setting
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F17/00—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for
- B41F17/38—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for for printing on knitted fabrics
Abstract
The present invention provides a kind of quantitative feed textile printing device, including rack, cloth transmission mechanism, feed bin, printing machine frame and wiper mechanism, and printing machine frame includes rotation changeover module, two groups of material spray components, quantitative feed component and synchronous printing component;Wiper mechanism is set to the top of rack, and wiper mechanism is correspondingly arranged with synchronous printing component, which includes cleaning case and blowdown tank;By the way that quantitative feed component is arranged, while synchronous printing component carries out stamp, another synchronous printing component above the synchronization printing component for carrying out stamp work carries out quantitative feed by quantitative feed component, and Screen Printing carries out and the cloth synchronizing moving stamp that transmits on cloth transmission mechanism under the driving of synchronous actuator, solves the quantitative output that cannot achieve dye liquor in the prior art, the technical issues of easily causing stamp flower case to become paste, influence printing quality when carrying out stamp.
Description
Technical field
The present invention relates to textile printing equipment technical field more particularly to a kind of quantitative feed textile printing devices.
Background technique
Printing and dyeing are referred to as dyeing and finishing again, are a kind of processing method and pre-treatment, dyeing, stamp, final finishing, wash water etc.
General name.Burlap can be dyed red with hematite powder by the Stone Age before six, 7,000 years, our ancestors.
The primitive tribe for living in the promise wood flood area of Chaidamu Basin, Qinghai Province, can dye knitting wool yellow, red, brown, Lan Dengse, weave band
The felt of colored striped.Shang and Zhou Dynasty, staining technique are continuously improved;Full-time government official " dye people " is equipped in the handicraft workshop of imperial palace
Come " palm dye grass ", management dyeing production;The color dyed is also continuously increased;To Han dynasty, staining technique has reached quite high water
It is flat.
Present requirement of the people to quality of the life is higher and higher, and the decalcomania on cloth also requires increasingly complex multiplicity,
And existing textile printing machine can only generally print off a kind of pattern of stamp, when needing to print off the stamp of different pattern, just need
Cloth is placed on to progress stamp processing on different printing machines, not only needs to take considerable time, reduces working efficiency,
Meanwhile also increasing the labor intensity of operator.
Chinese patent CN201710754616.1 describes a kind of semi-automatic textile printing equipment, including bottom plate, the bottom
Printing table is movably installed, printing table can be fixed on holding fix and operating position, the two sides peace of operating position on plate
For dress there are two the first support being arranged symmetrically, first support is equipped with guide rail, and sliding block, the both ends peace of hot-pressing roller are equipped in guide rail
In the sliding block of its two sides, bottom plate is equipped with second support and third bracket, and second support can turn respectively on third bracket
Dynamic is equipped with emptying roller and pan feeding roller, which is become more using simple mechanical transmission structure by the printing technology of textile fabric
Simply, efficiently, there is good operability, while there is good price advantage.
There are many deficiencies for said mechanism, such as when carrying out textile printing, cannot achieve the quantitative output of dye liquor, are carrying out
It easily causes stamp flower case to become paste when stamp, influences printing quality.
Summary of the invention
Of the invention provides a kind of quantitative feed textile printing device in view of the deficiencies of the prior art, is quantitatively sent by setting
Expect component, it is another above the synchronization printing component for carrying out stamp work while synchronous printing component carries out stamp
Synchronous printing component carries out quantitative feed, and Screen Printing progress and cloth under the driving of synchronous actuator by quantitative feed component
The cloth synchronizing moving transmitted on transmission mechanism, and stamp is completed in moving process, while carrying out stamp, with this into
The synchronization printing component of row stamp is in that the synchronization printing component for another group of complete stamp of carry out being vertically arranged drops into cleaning case
It is cleaned, solves the quantitative output that cannot achieve dye liquor in the prior art, stamp flower case is easily caused to become when carrying out stamp
The technical issues of pasting, influencing printing quality.
To achieve the above object, the invention provides the following technical scheme:
A kind of quantitative feed textile printing device, including rack, the cloth transmission mechanism being set to below the rack and
It is set to the feed bin of the rack side, further includes:
Printing machine frame, the printing machine frame are rotatably dispose in the rack, the printing machine frame include rotation changeover module,
Along the rotation changeover module central point two groups of quantitative feed components arranged in a crossed manner in the rotation changeover module circumferential direction, together
Step printing component and the material spray component that is set to above the synchronous printing component, it is uniformly distributed in the circumferential direction of the rotation changeover module
Four groups of discharge barrels are provided with, one end of the quantitative feed component is slideably positioned in the discharge barrel, and is sealed with the discharge barrel
Contact is arranged, and Screen Printing is provided in the synchronous printing component, and the Screen Printing and the cloth transmission mechanism upload
Defeated cloth is correspondingly arranged and is arranged with the cloth discontinuous connection, and the material spray component interruption acts on the upper of the Screen Printing
On surface;And
Wiper mechanism, the wiper mechanism are set to the top of the rack, the wiper mechanism and the synchronous stamp group
Part is correspondingly arranged, which includes cleaning case and surround the blowdown tank for being set to the cleaning case surrounding, and the synchronization prints
Flower component interruption acts in the cleaning case.
As an improvement, discharge barrel described in two groups set up and down is connection setting, and is formed and determined in discharge barrel connectivity part
Measure feeding area.
As an improvement, the rotation changeover module further include:
Rotary drive, the rotary drive are fixedly installed on the rack side;
Material storage tube, the material storage tube are rotatably dispose in the rack, and the material storage tube one end and the rotary drive
Driving end be fixedly connected, the material storage tube be inner hollow be arranged and the circumferential direction of the periphery of the material storage tube on be uniformly arranged there are four
Discharge port, the discharge port are connected to setting with the discharge barrel;
Inlet, the inlet are fixedly installed in the rack, and the other end of the material storage tube is rotatably dispose in this
In inlet, which is connected to setting with the material storage tube, and the other end of the inlet is connected to the feed bin and sets
It sets.
As an improvement, the inlet includes:
Fixed cover, the fixed cover are fixedly connected with the rack, which is provided with rotation hole, institute
It states material storage tube one end to be rotatably dispose in the rotation hole, which is connected to setting with the feed bin by pipeline;
Charging cover, the charging cover are rotatably dispose in the rotation hole, and one end is covered in the charging and the material storage tube connects
It is logical to be arranged, several intercommunicating pores, the intercommunicating pore and the intermittent communicated setting of the feed bin are offered in the charging cover circumferential direction.
As an improvement, the quantitative feed component includes:
Storing pipeline, the storing pipeline connection are set in the discharging pipe wall;
Quantitative packing cylinder, the quantitative packing cylinder are slideably positioned in the discharge barrel, and the quantitative packing cylinder is located at institute
It states in quantitative feed region, the quantitative packing cylinder and the discharge barrel inner wall setting in sealing contact;
Conveying gain, the conveying gain are opened on the quantitative packing cylinder barrel, the conveying gain and the storing
The intermittent communicated setting of pipeline;
Material extrusion actuator, the material extrusion actuator are fixedly installed on the discharge barrel, and the material extrusion actuator drives end
It is fixedly connected with wherein quantitative packing cylinder one end described in one group.
As an improvement, the material spray component includes:
Stuff-spraying pipe, described stuff-spraying pipe one end are connected to setting with the quantitative packing cylinder output end;
Material spray cover, the material spray cover are fixedly installed on the side of the stuff-spraying pipe, and the material spray cover one end and the material spray
The other end of pipe is connected to setting, forms pressurised zone in the material spray cover, offers spray material port on one end of the material spray cover;
Material spray piston, the material spray piston are slideably positioned in the pressurised zone, the other end of the material spray piston and institute
Screen Printing one end is stated to be fixedly connected.
As an improvement, the synchronous printing component further include:
Mounting plate, the mounting plate are fixedly installed below the material spray cover, and the spray material port passes through the mounting plate;
Sliding rail, the sliding rail are fixedly installed on the mounting plate length direction, the Screen Printing sliding
It is set on the sliding rail;
Synchronous actuator, the synchronous actuator are set on the bracket of the cloth transmission mechanism;
Synchronous Transmission rack gear, the Synchronous Transmission rack gear are fixedly installed in the printed side of the Screen Printing, the synchronization
Driving rack is equipped with the synchronous actuator;
Scraper plate, the scraper plate are fixedly installed on the mounting plate along one end of cloth transmission direction, the scraper plate and the print
The contact setting of flower sieve upper surface.
As an improvement, the synchronous actuator includes:
Driving belt pulley, the driving belt pulley are fixedly connected with the live-roller of the cloth transmission mechanism;
Driving pulley, the driving pulley are rotatably dispose on the bracket of the cloth transmission mechanism, the transmission skin
It is sequentially connected between belt wheel and the driving belt pulley by belt;
Drive gear, the driving gear and the coaxially connected setting of the driving pulley, the driving gear and it is described together
Step driving rack interruption is engaged.
As an improvement, the cleaning case includes:
Bottom plate;
Fixed plate, the fixed plate are fixedly installed on three weeks of the bottom plate, fixed plate described in three groups and the bottom plate
Between form area of absence;
Slip limiting plate, the slip limiting plate are fixedly installed in the area of absence, are inside the slip limiting plate
Hollow setting, and the relationship between the height h of the slip limiting plate and the height H of the fixed plate meets, h < H;
Sliding panel, the sliding panel are slideably positioned in the hollow region of the slip limiting plate, and sliding panel sliding is made
For in the area of absence, and the sliding panel and the fixed plate setting in sealing contact that is located at the area of absence two sides;
Reset spring, described reset spring one end are fixedly connected with the lower end of the sliding panel, the reset spring it is another
End is fixedly installed in the hollow region of the slip limiting plate.
As an improvement, forming sewage storage region between the blowdown tank and cleaning case, and the blowdown tank and the stamp
Fluting is offered on the side at mechanism contacts end.
The beneficial effects of the present invention are:
(1) the more traditional textile printing device of the present invention is carried out by the way that quantitative feed component is arranged in synchronous printing component
While stamp, another synchronous printing component above the synchronization printing component for carrying out stamp work is by quantitative feed component
Quantitative feed is carried out, and Screen Printing progress is synchronous with the cloth transmitted on cloth transmission mechanism under the driving of synchronous actuator
It is mobile, and stamp is completed in moving process, while carrying out stamp, with the synchronous printing component of the carry out stamp in vertical
The synchronization printing component for another group of complete stamp of carry out being arranged, which drops into cleaning case, is cleaned, and is realizing the same of quantitative feed
When, it realizes the quick stamp of cloth, improves stamp production efficiency;
(2) the more traditional textile printing device of the present invention is being revolved by the way that material spray component is arranged above synchronous printing component
Turn dyestuff when changeover module carries out station rotary switching to be conveyed from quantitative feed component into material spray component, and is printed synchronous
Material spray component synchronizes quantitative material spray on Screen Printing while flower component synchronizes stamp, realizes the weaving of high quality
Stamp;
(3) the more traditional textile printing device of the present invention, by the way that wiper mechanism is arranged, synchronous printing component is carried out downwards
While stamp, another group of synchronous printing component above the synchronization printing component vertical direction of the carry out stamp is entered
It is cleaned in cleaning case, the Screen Printing in synchronous printing component is connect during moving down with the water in cleaning case
Touching, water gives Screen Printing certain hydraulic pressure in contact process, and the dirt on Screen Printing is discharged in blowdown tank water, realizes
Rapid Cleaning on Screen Printing;
(4) the more traditional textile printing device of the present invention carries out the driving of material storage tube by rotary drive, so that storing
Cylinder rotates, and the quantity of material spray component is four groups, and during carrying out practical stamp, the station for carrying out stamp is four works
Position, when rotary drive is carried out material storage tube degrees of rotation, carries out the switching of a station, since material storage tube is constantly in rotation
State, therefore inlet is set at material storage tube feed end, the rotational installation of material storage tube one end in fixed cover, while by into
Material cover is rotated with fixed cover, is realized the pressurization in material storage tube, is opened up four intercommunicating pores in the circumferential direction on charging cover, work as rotation
When actuator carries out the switching of a station, intercommunicating pore is connected to feed bin, and feed bin feeds into material storage tube, material storage tube
Interior realization pressurization, and material Quick uniform is sprayed on Screen Printing in the ejection that material spray component is expected outward;
(5) the more traditional textile printing device of the present invention, by when charging covers on fixed cover and rotated, due to rotation
It is setting in sealing contact between hole and charging cover, when the intercommunicating pore degrees of rotation on charging cover to rotation hole is with feed bin connectivity part, material
Storehouse carries out the continuous charging in material storage tube, and when charging, which covers on, to be rotated in rotation hole, intercommunicating pore is not connected to feed bin, storing
Cylinder realizes the stirring expected in cylinder during rotation, so that dyestuff is more uniform.
In short, the present invention has many advantages, such as that structure is simple, high degree of automation, printing quality height, high production efficiency, especially
Suitable for textile printing equipment technical field.
Detailed description of the invention
It, below will be to required use in embodiment description for the clearer technical solution for illustrating the embodiment of the present invention
Attached drawing be briefly described, it should be apparent that, drawings discussed below is only some embodiments of the present invention, for ability
For the those of ordinary skill in domain, without creative efforts, it is attached to can also be obtained according to these attached drawings other
Figure.
Fig. 1 is front view of the invention;
Fig. 2 is overall structure diagram of the invention;
Fig. 3 is cross-sectional view of the invention;
Fig. 4 is the structural schematic diagram of printing machine frame in the present invention;
Fig. 5 is the front view of printing machine frame in the present invention;
Fig. 6 is the working state schematic representation of printing machine frame in the present invention;
Fig. 7 is the enlarged drawing in Fig. 2 at A;
Fig. 8 is the enlarged drawing in Fig. 6 at B;
Fig. 9 is the cross-sectional view of inlet in the present invention;
Figure 10 is the structural schematic diagram of wiper mechanism in the present invention;
Figure 11 is the working state schematic representation of wiper mechanism in the present invention;
Figure 12 is the partial enlarged view of material spray component in the present invention.
Specific embodiment
Technical solution in the embodiment of the present invention is clearly and completely illustrated with reference to the accompanying drawing.
Embodiment one
The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end
Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached
The embodiment of figure description is exemplary, it is intended to is used to explain the present invention, and is not considered as limiting the invention.
As shown in Fig. 1~12, a kind of quantitative feed textile printing device, including rack 1, it is set to 1 lower section of the rack
Cloth transmission mechanism 2 and be set to the feed bin 3 of 1 side of rack, further includes:
Printing machine frame 4, the printing machine frame 4 are rotatably dispose in the rack 1, which includes rotation switching
Component 41 is quantified along rotation 41 central point of changeover module two groups in rotation 41 circumferential direction of changeover module arranged in a crossed manner
Feeding material component 42, synchronous printing component 43 and the material spray component 44 for being set to 43 top of synchronous printing component, the rotation
Four groups of discharge barrels 411 are uniformly arranged in the circumferential direction of changeover module 41, one end of the quantitative feed component 42 is slideably positioned in
In the discharge barrel 411, and with the setting in sealing contact of discharge barrel 411, be provided with Screen Printing in the synchronous printing component 43
431, the cloth 20 transmitted on the Screen Printing 431 and the cloth transmission mechanism 2 is correspondingly arranged and is interrupted with the cloth 20
Contact setting, the interruption of material spray component 44 act on the upper surface of the Screen Printing 431;And
Wiper mechanism 5, the wiper mechanism 5 are set to the top of the rack 1, the wiper mechanism 5 with it is described it is synchronous print
Flower component 43 is correspondingly arranged, and the wiper mechanism 5 is including cleaning case 51 and around the blowdown tank for being set to 51 surrounding of cleaning case
52, the synchronous interruption of printing component 43 acts in the cleaning case 51.
It should be noted that by setting quantitative feed component 42, while synchronous printing component 43 carries out stamp, position
Another synchronous printing component 43 above the synchronization printing component 43 for carrying out stamp work is determined by quantitative feed component 42
Feeding is measured, and Screen Printing 431 carries out and the cloth 20 that transmits on cloth transmission mechanism 2 under the driving of synchronous actuator 435
Synchronizing moving, and stamp is completed in moving process, while carrying out stamp, with the synchronous printing component 43 of the carry out stamp
It drops into cleaning case 51 and is cleaned in the synchronization printing component 43 for another group of complete stamp of carry out being vertically arranged, it is fixed realizing
While measuring feeding, realizes the quick stamp of cloth, improve stamp production efficiency.
Further, discharge barrel 411 described in two groups set up and down is connection setting, and in 411 connectivity part of discharge barrel
Form quantitative feed region 4110.
It should be noted that when the synchronization printing component 43 for having carried out synchronous stamp is located at the surface of cleaning case 51,
When being moved into cleaning case 51, quantitative packing cylinder 422 carries out synchronous printing component 43 in quantitative feed region 4110
Material extrusion squeezes into the dye liquor being located in quantitative feed region 4110 to storing pipeline 421, so that dye liquor is full of storing pipeline
In 421, when quantitative packing cylinder 422 is during continuing to move down, quantitative packing cylinder 422 passes through conveying gain 423 and storing
Pipeline 421 is connected to, and the dye liquor in storing pipeline 421 enters in quantitative packing cylinder 422, is realized and is determined in quantitative packing cylinder 422
Measure feeding.
It should be noted that rotary drive 412 carries out the driving of material storage tube 413, so that material storage tube 413 rotates,
The quantity for synchronizing printing component 43 in the present embodiment is four groups, during carrying out practical stamp, carries out the station of stamp
The switching of a station is carried out, due to material storage tube 413 when rotary drive 412 is carried out material storage tube degrees of rotation for four stations
Be constantly in the state of rotation, thus at 413 feed end of material storage tube be arranged inlet, 413 one end of material storage tube rotational installation in
It in fixed cover 4141, while being rotated by charging cover 4143 and fixed cover 4141, realizes the pressurization in material storage tube 413,
This it is noted that as a preferred embodiment, charging cover 4143 on circumferential direction on open up four intercommunicating pores 4144,
When rotary drive 412 carries out the switching of a station, intercommunicating pore 4144 is connected to feed bin 3, and feed bin 3 is to material storage tube
It feeds in 413, pressurization is realized in material storage tube 413, and is in the ejection that material spray component 44 is expected outward that material is quickly equal
It is even to be sprayed on Screen Printing 431.
Further, the rotation changeover module 41 further include:
Rotary drive 412, the rotary drive 412 are fixedly installed on 1 side of rack;
Material storage tube 413, the material storage tube 413 are rotatably dispose in the rack 1, and 413 one end of material storage tube with it is described
Rotary drive 412 drives end to be fixedly connected, which is inner hollow setting and the periphery of the material storage tube 413
It is uniformly arranged in circumferential direction there are four discharge port 4121, the discharge port 4121 is connected to setting with the discharge barrel 411;
Inlet 414, the inlet 414 are fixedly installed in the rack 1, and the other end of the material storage tube 413 turns
Dynamic to be set in the inlet 414, which is connected to setting with the material storage tube 413, and the inlet 414
The other end is connected to setting with the feed bin 3.
It should be noted that when charging cover 4143 is when fixed cover 4141 is rotated, due to rotation hole 4142 and charging
It is setting in sealing contact between cover 4143, the intercommunicating pore 4144 on charging cover 4143 rotates 90 degree to rotation hole 4142 and feed bin 3
When connectivity part, feed bin 3 carries out the continuous charging in material storage tube 413, when charging cover 4143 is rotated in rotation hole 4142,
Intercommunicating pore 4144 is not connected to feed bin 3, and material storage tube 413 realizes the stirring expected in cylinder during rotation, so that dyestuff is more equal
It is even.
Further, the inlet 414 includes:
Fixed cover 4141, the fixed cover 4141 are fixedly connected with the rack 1, which sets
It is equipped with rotation hole 4142, described 413 one end of material storage tube is rotatably dispose in the rotation hole 4142, which passes through
Pipeline is connected to setting with the feed bin 3;
Charging cover 4143, the charging cover 4143 is rotatably dispose in the rotation hole 4142, and the charging cover 4,143 1
End is connected to setting with the material storage tube 413, offers several intercommunicating pores 4144, the intercommunicating pore in 4143 circumferential direction of charging cover
4144 with the intermittent communicated setting of the feed bin 3.
Further, the quantitative feed component 42 includes:
Storing pipeline 421, the connection of storing pipeline 421 are set on 411 tube wall of discharge barrel;
Quantitative packing cylinder 422, the quantitative packing cylinder 422 are slideably positioned in the discharge barrel 411, and the quantitative material extrusion
Cylinder 422 is located in the quantitative feed region 4110, the quantitative packing cylinder 422 with 411 inner wall of discharge barrel is in sealing contact sets
It sets;
Conveying gain 423, the conveying gain 423 are opened on quantitative 422 barrel of packing cylinder, the conveying gain
423 with the intermittent communicated setting of the storing pipeline 421;
Material extrusion actuator 424, the material extrusion actuator 424 are fixedly installed on the discharge barrel 411, and the material extrusion drives
Part 424 drives end to be fixedly connected with wherein quantitative 422 one end of packing cylinder described in one group.
Further, the material spray component 44 includes:
Stuff-spraying pipe 441, described 441 one end of stuff-spraying pipe are connected to setting with quantitative 422 output end of packing cylinder;
Material spray cover 442, the material spray cover 442 are fixedly installed on the side of the stuff-spraying pipe 441, and the material spray cover 442 1
End is connected to setting with the other end of the stuff-spraying pipe 441, and pressurised zone 4420 is formed in the material spray cover 442, the material spray cover 442
Spray material port 4421 is offered on one end;
Material spray piston 443, the material spray piston 443 are slideably positioned in the pressurised zone 4420, the material spray piston 443
The other end be fixedly connected with described 431 one end of Screen Printing.
It should be noted that when the driving gear 4353 on synchronous actuator 435 is engaged with Synchronous Transmission rack gear 436,
When Screen Printing 431 is carried forward mobile, material spray piston 443 is driven to be carried forward movement, to positioned at 442 pressor areas of material spray cover
Dye liquor in domain 4420 pressurizes, so that dye liquor is sprayed from spray material port 4421 on Screen Printing 431, and during ejection
Screen Printing 431 occurs and spray material port 4421 relatively moves, so that the dye that spray material port 4421 is sprayed on Screen Printing 431
Liquid is more uniform, realizes the stamp of high quality.
It should be noted that being set to when material extrusion actuator 424 carries out downwards the downward driving of quantitative packing cylinder 422
The engagement of Synchronous Transmission rack gear 436 on Screen Printing 431 and the driving gear 4353 on synchronous actuator 435, drives gear
4353 drive Screen Printings 431 are carried forward movement, realize displacement identical with 20 transmission speed of cloth, and when opposing stationary
Carry out stamp.
Further, the synchronous printing component 43 further include:
Mounting plate 432, the mounting plate 432 is fixedly installed on 442 lower section of material spray cover, and the spray material port 4421 is worn
Cross the mounting plate 432;
Sliding rail 433, the sliding rail 433 are fixedly installed on 432 length direction of mounting plate, the stamp
Sieve 431 is slideably positioned on the sliding rail 433;
Synchronous actuator 435, the synchronous actuator 435 are set on the bracket of the cloth transmission mechanism 2;
Synchronous Transmission rack gear 436, the Synchronous Transmission rack gear 436 are fixedly installed on the printed side of the Screen Printing 431
On, which is equipped with the synchronous actuator 435;
Scraper plate 437, the scraper plate 437 are fixedly installed on the mounting plate 432 along one end of 20 transmission direction of cloth, this is scraped
Plate 437 contacts setting with 431 upper surface of Screen Printing.
Further, the synchronous actuator 435 includes:
Driving belt pulley 4351, the driving belt pulley 4351 are fixedly connected with the live-roller of the cloth transmission mechanism 2;
Driving pulley 4352, the driving pulley 4352 are rotatably dispose on the bracket of the cloth transmission mechanism 2,
It is sequentially connected between the driving pulley 4352 and the driving belt pulley 4351 by belt;
Drive gear 4353, the driving gear 4353 and the coaxially connected setting of the driving pulley 4352, the driving
Gear 4353 is engaged with the Synchronous Transmission rack gear 436 interruption.
It should be noted that scraper plate 437 remain stationary it is motionless, Screen Printing 431 under the driving of synchronous actuator 435 into
The row synchronizing moving consistent with 20 transmission speed of cloth, and scraper plate 437 carries out scraping for Screen Printing 431 in moving process
Material, so that the dyestuff on Screen Printing 431 carries out stamp on cloth 20.
Further, the cleaning case 51 includes:
Bottom plate 511;
Fixed plate 512, the fixed plate 512 are fixedly installed on three weeks of the bottom plate 511, fixed plate described in three groups
Area of absence 5120 is formed between 512 and the bottom plate 511;
Slip limiting plate 513, the slip limiting plate 513 are fixedly installed in the area of absence 5120, sliding limit
It is hollow setting inside the plate 513 of position, and between the height h of the slip limiting plate 513 and the height H of the fixed plate 512
Relationship meets, h < H;
Sliding panel 514, the sliding panel 514 are slideably positioned in the hollow region of the slip limiting plate 513, the sliding
The sliding of plate 514 acts in the area of absence 5120, and the sliding panel 514 and the fixation for being located at 5120 two sides of area of absence
The setting in sealing contact of plate 512;
Reset spring 515, described 515 one end of reset spring are fixedly connected with the lower end of the sliding panel 514, the reset bullet
The other end of spring 515 is fixedly installed in the hollow region of the slip limiting plate 513.
It should be noted that being in set vertically with the synchronous printing component 43 of the carry out stamp while carrying out stamp
The synchronization printing component 43 for another group of complete stamp of carry out set, which drops into cleaning case 51, is cleaned, in the process of cleaning, together
Step printing component 43 is contacted with sliding panel 514, and drives sliding panel 514 to move down in contact process, cleaning case 51
Interior water is overflowed from synchronous printing component 43 into blowdown tank 52, in synchronous printing component 43 during spilling
Hydraulic pressure is generated, and is taken the dirt on Screen Printing 431 to blowdown tank 52 out of by hydraulic pressure, realizes the quick of clear water and sewage
Separation.
Further, between the blowdown tank 52 and cleaning case 51 formed sewage storage region 520, and the blowdown tank 52 with
Fluting 521 is offered on the side of 4 contact jaw of printing machine frame.
The course of work:
As shown in Figure 1, when the synchronization printing component 43 for having carried out synchronous stamp is located at the surface of cleaning case 51, it is synchronous
For printing component 43 when being moved into cleaning case 51, quantitative packing cylinder 422 carries out material extrusion in quantitative feed region 4110,
The dye liquor being located in quantitative feed region 4110 is squeezed into storing pipeline 421, so that dye liquor is full of in storing pipeline 421,
When quantitative packing cylinder 422 is during continuing to move down, quantitative packing cylinder 422 passes through conveying gain 423 and storing pipeline 421
It is connected to, the dye liquor in storing pipeline 421 enters in quantitative packing cylinder 422, realizes the quantitative feed in quantitative packing cylinder 422;
Rotary drive 412 carries out the driving of material storage tube 413, and the switching of station is realized in the rotation of 413 degree of progress of material storage tube,
When wherein one group of material spray component 44 is located at the surface of cloth 20, material extrusion actuator 424 carries out downwards driving will quantitative material extrusion
Cylinder 422 is moved down, and carries out the dyestuff in quantitative packing cylinder 422 into material spray component 44 during rotating switching
Conveying, while when material spray component 44 is located at the surface of transmission cloth 20, material spray is realized under the driving of synchronous actuator 435
Dye liquor in material spray cover 442 is ejected on Screen Printing 431 by piston 443, while being realized at stamp under the scraper of scraper plate 437
Reason is in another group of complete print of carry out being vertically arranged with the synchronous printing component 43 of the carry out stamp while carrying out stamp
Colored synchronization printing component 43, which drops into cleaning case 51, is cleaned, in the process of cleaning, synchronous printing component 43 and sliding
Plate 514 is contacted, and drives sliding panel 514 to move down in contact process, and the water in cleaning case 51 is from synchronous stamp group
It is overflowed on part 43 into blowdown tank 52, to generating hydraulic pressure in synchronous printing component 43 during spilling, and relies on water
Pressure takes the dirt on Screen Printing 431 to blowdown tank 52 out of, realizes the quick separating of clear water and sewage;
It should be noted that when charging cover 4143 is when fixed cover 4141 is rotated, due to rotation hole 4142 and charging
It is setting in sealing contact between cover 4143, the intercommunicating pore 4144 on charging cover 4143 rotates 90 degree to rotation hole 4142 and feed bin 3
When connectivity part, feed bin 3 carries out the continuous charging in material storage tube 413, when charging cover 4143 is rotated in rotation hole 4142,
Intercommunicating pore 4144 is not connected to feed bin 3, and material storage tube 413 realizes the stirring expected in cylinder during rotation, so that dyestuff is more equal
It is even.
In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ",
" thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time
The orientation or positional relationship of the instructions such as needle ", " counterclockwise " is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of
The description present invention and simplified description, rather than the equipment of indication or suggestion meaning or element must have a particular orientation, with spy
Fixed orientation construction and operation, therefore be not considered as limiting the invention.
In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance
Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or
Implicitly include one or more of the features.In the description of the present invention, the meaning of " plurality " is two or more,
Unless otherwise specifically defined.
The foregoing description of the disclosed embodiments makes those skilled in the art not depart from the spirit and scope of the present invention
In the case where, various changes or equivalence replacement can be carried out to these features and embodiment.In addition, under the teachings of the present invention,
Can modify to these features and embodiment with adapt to particular situation and material without departing from spirit of the invention and
Range.Therefore, the present invention is not limited to the particular embodiment disclosed, fallen with claims hereof range
Interior embodiment belongs to protection scope of the present invention.
Claims (10)
1. a kind of quantitative feed textile printing device, including rack (1), the cloth conveyer being set to below the rack (1)
Structure (2) and the feed bin (3) for being set to the rack (1) side, which is characterized in that further include:
Printing machine frame (4), the printing machine frame (4) are rotatably dispose on the rack (1), which includes rotation
It is changeover module (41), arranged in a crossed manner in rotation changeover module (41) circumferential direction along rotation changeover module (41) central point
Two groups of quantitative feed components (42), synchronous printing component (43) and the material spray being set to above the synchronous printing component (43)
Component (44), it is described rotation changeover module (41) circumferential direction on be uniformly arranged four groups of discharge barrels (411), the quantitative feed group
One end of part (42) is slideably positioned in the discharge barrel (411), and with discharge barrel (411) setting in sealing contact, the synchronization
It is provided in printing component (43) Screen Printing (431), the Screen Printing (431) and the cloth transmission mechanism (2) upload
Defeated cloth (20) is correspondingly arranged and is arranged with cloth (20) discontinuous connection, and material spray component (44) interruption acts on described
On the upper surface of Screen Printing (431);And
Wiper mechanism (5), the wiper mechanism (5) are set to the top of the rack (1), the wiper mechanism (5) and described same
Step printing component (43) is correspondingly arranged, which includes cleaning case (51) and around being set to the cleaning case (51)
The blowdown tank (52) of surrounding, synchronous printing component (43) interruption act in the cleaning case (51).
2. a kind of quantitative feed textile printing device according to claim 1, which is characterized in that two groups set up and down
The discharge barrel (411) is connection setting, and forms quantitative feed region (4110) in discharge barrel (411) connectivity part.
3. a kind of quantitative feed textile printing device according to claim 1, which is characterized in that the rotation changeover module
(41) further include:
Rotary drive (412), the rotary drive (412) are fixedly installed on the rack (1) side;
Material storage tube (413), the material storage tube (413) are rotatably dispose on the rack (1), and material storage tube (413) one end with
Rotary drive (412) driving end is fixedly connected, which is inner hollow setting and the material storage tube (413)
Periphery circumferential direction on be uniformly arranged there are four discharge port (4121), the discharge port (4121) and the discharge barrel (411)
Connection setting;
Inlet (414), the inlet (414) are fixedly installed on the rack (1), the material storage tube (413) it is another
End is rotatably dispose in the inlet (414), which is connected to setting with the material storage tube (413), and this into
The other end of materials and parts (414) is connected to setting with the feed bin (3).
4. a kind of quantitative feed textile printing device according to claim 3, which is characterized in that the inlet (414)
Include:
Fixed cover (4141), the fixed cover (4141) are fixedly connected with the rack (1), fixation cover (4141) center
Place is provided with rotation hole (4142), and described material storage tube (413) one end is rotatably dispose in the rotation hole (4142), the rotation hole
(4142) one end is connected to setting with the feed bin (3) by pipeline;
Charging cover (4143), the charging cover (4143) is rotatably dispose in the rotation hole (4142), and the charging cover
(4143) one end is connected to setting with the material storage tube (413), offers several intercommunicating pores in charging cover (4143) circumferential direction
(4144), the intercommunicating pore (4144) and the feed bin (3) intermittent communicated setting.
5. a kind of quantitative feed textile printing device according to claim 2, which is characterized in that the quantitative feed component
(42) include:
Storing pipeline (421), storing pipeline (421) connection are set on the discharge barrel (411) tube wall;
Quantitative packing cylinder (422), quantitative packing cylinder (422) are slideably positioned in the discharge barrel (411), and this is quantitative crowded
Barrel (422) is located in the quantitative feed region (4110), quantitative packing cylinder (422) and the discharge barrel (411) inner wall
Setting in sealing contact;
Conveying gain (423), the conveying gain (423) are opened on described quantitative packing cylinder (422) barrel, the conveying gain
(423) with the intermittent communicated setting of the storing pipeline (421);
Material extrusion actuator (424), the material extrusion actuator (424) are fixedly installed on the discharge barrel (411), and the material extrusion is driven
Moving part (424) drives end to be fixedly connected with wherein quantitative packing cylinder (422) one end described in one group.
6. a kind of quantitative feed textile printing device according to claim 3, which is characterized in that the material spray component (44)
Include:
Stuff-spraying pipe (441), described stuff-spraying pipe (441) one end are connected to setting with described quantitative packing cylinder (422) output end;
Material spray cover (442), the material spray cover (442) are fixedly installed on the side of the stuff-spraying pipe (441), and the material spray cover
(442) one end is connected to setting with the other end of the stuff-spraying pipe (441), forms pressurised zone (4420) in the material spray cover (442),
Spray material port (4421) are offered on one end of the material spray cover (442);
Material spray piston (443), the material spray piston (443) are slideably positioned in the pressurised zone (4420), the material spray piston
(443) the other end is fixedly connected with the Screen Printing (431) one end.
7. a kind of quantitative feed textile printing device according to claim 6, which is characterized in that the synchronous printing component
(43) further include:
Mounting plate (432), the mounting plate (432) is fixedly installed below the material spray cover (442), and the spray material port
(4421) mounting plate (432) is passed through;
Sliding rail (433), the sliding rail (433) are fixedly installed on the mounting plate (432) length direction, the print
Flower sieve (431) is slideably positioned on the sliding rail (433);
Synchronous actuator (435), the synchronous actuator (435) are set on the bracket of the cloth transmission mechanism (2);
Synchronous Transmission rack gear (436), the Synchronous Transmission rack gear (436) are fixedly installed on the stamp of the Screen Printing (431)
On face, which is equipped with the synchronous actuator (435);
Scraper plate (437), the scraper plate (437) are fixedly installed on the mounting plate (432) along one end of cloth (20) transmission direction,
The scraper plate (437) contacts setting with the Screen Printing (431) upper surface.
8. a kind of quantitative feed textile printing device according to claim 7, which is characterized in that the synchronous actuator
(435) include:
The live-roller of driving belt pulley (4351), the driving belt pulley (4351) and the cloth transmission mechanism (2) is fixed to be connected
It connects;
Driving pulley (4352), the driving pulley (4352) are rotatably dispose in the bracket of the cloth transmission mechanism (2)
On, it is sequentially connected between the driving pulley (4352) and the driving belt pulley (4351) by belt;
It drives gear (4353), the driving gear (4353) and the driving pulley (4352) coaxially connected setting, the drive
Moving gear (4353) is engaged with the Synchronous Transmission rack gear (436) interruption.
9. a kind of quantitative feed textile printing device according to claim 1, which is characterized in that cleaning case (51) packet
It includes:
Bottom plate (511);
Fixed plate (512), the fixed plate (512) are fixedly installed on three weeks of the bottom plate (511), fixed plate described in three groups
(512) area of absence (5120) are formed between the bottom plate (511);
Slip limiting plate (513), the slip limiting plate (513) are fixedly installed on the area of absence (5120), the sliding
It is hollow setting inside limit plate (513), and the height of the height h of the slip limiting plate (513) and the fixed plate (512)
Relationship between H meets, h < H;
Sliding panel (514), the sliding panel (514) are slideably positioned in the hollow region of the slip limiting plate (513), the cunning
Movable plate (514) sliding acts in the area of absence (5120), and the sliding panel (514) be located at the area of absence (5120)
Fixed plate (512) setting in sealing contact of two sides;
Reset spring (515), described reset spring (515) one end are fixedly connected with the lower end of the sliding panel (514), the reset
The other end of spring (515) is fixedly installed in the hollow region of the slip limiting plate (513).
10. a kind of quantitative feed textile printing device according to claim 1, which is characterized in that the blowdown tank (52)
Sewage storage region (520) are formed between cleaning case (51), and the blowdown tank (52) and the printing machine frame (4) contact jaw
Fluting (521) are offered on side.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201811032632.0A CN109203657A (en) | 2018-09-05 | 2018-09-05 | A kind of quantitative feed textile printing device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811032632.0A CN109203657A (en) | 2018-09-05 | 2018-09-05 | A kind of quantitative feed textile printing device |
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Publication Number | Publication Date |
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CN109203657A true CN109203657A (en) | 2019-01-15 |
Family
ID=64987619
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201811032632.0A Withdrawn CN109203657A (en) | 2018-09-05 | 2018-09-05 | A kind of quantitative feed textile printing device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112356566A (en) * | 2020-11-02 | 2021-02-12 | 山东华冠智能卡有限公司 | RFID electronic tag antenna printing equipment based on graphene conductive paste |
-
2018
- 2018-09-05 CN CN201811032632.0A patent/CN109203657A/en not_active Withdrawn
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112356566A (en) * | 2020-11-02 | 2021-02-12 | 山东华冠智能卡有限公司 | RFID electronic tag antenna printing equipment based on graphene conductive paste |
CN112356566B (en) * | 2020-11-02 | 2022-02-11 | 山东华冠智能卡有限公司 | RFID electronic tag antenna printing equipment based on graphene conductive paste |
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