CN111907206A

CN111907206A - Textile printing adjusting device based on Internet of things big data technology

Info

Publication number: CN111907206A
Application number: CN202010676206.1A
Authority: CN
Inventors: 傅俊超
Original assignee: Foshan Zhibu Internet Textile Co ltd
Current assignee: Shenzhen Huitaijin Textile Co ltd
Priority date: 2020-07-14
Filing date: 2020-07-14
Publication date: 2020-11-10
Anticipated expiration: 2040-07-14
Also published as: CN111907206B

Abstract

The invention relates to the technical field of textile printing, in particular to a textile printing adjusting device based on the Internet of things big data technology, which comprises a bottom plate, support legs, a supporting mechanism, a stamping mechanism, a feeding mechanism, an adjusting mechanism and a limiting mechanism, wherein the support legs are arranged on the bottom plate; when the dye printing device is used, the feeding mechanism is arranged on one side of the stamping mechanism, and the dye in the storage tank is continuously stirred and adjusted through the corresponding gear transmission structure, so that the fluidity of the dye is enhanced, and the situation that the dye is thick quickly is avoided; the regulating mechanism is arranged in the supporting mechanism, and corresponding blending liquid is conveniently and intermittently added into the storage tank through the corresponding gear transmission structure and the corresponding ratchet wheel structure, so that the dye can be further prevented from being thick, and the use process is convenient; settle stop gear in the both sides at bottom plate top, the convenience plays tight effect of clamp to the whole stamp process of weaving cloth to can avoid weaving cloth to take place fold or off normal, make the quality that can guarantee the stamp.

Description

Textile printing adjusting device based on Internet of things big data technology

Technical Field

The invention relates to the technical field of textile printing, in particular to a textile printing adjusting device based on an internet of things big data technology.

Background

With the continuous development and improvement of the textile knowledge system and the discipline system, particularly after the production of non-woven textile materials, three-dimensional compound knitting and other technologies, the textile is not only the traditional hand-made spinning and weaving, but also the textile for clothing, industry and decoration produced by the non-woven fabric technology, the modern three-dimensional knitting technology, the modern electrostatic nano-net forming technology and the like. The textile cloth plays a considerable role in decorative display. A large amount of cloth is used for wall surface decoration, partition and background treatment, and a good commercial space display style can be formed. The raw materials can be divided into cotton cloth, chemical fiber cloth, hemp cloth, wool spinning cloth, silk, blended fabric and the like. At present, the cloth is industrially and rapidly produced in batches through the Internet of things, and the cloth is usually required to be printed in the production process so as to pursue the aesthetic feeling.

However, when the conventional printing device for textile cloth is actually used, the textile cloth may be deviated or wrinkled in a long-term printing and dyeing process, which causes the condition of printing dislocation or missing printing, and affects the printing quality; meanwhile, when the dye is used for a long time, the dye may generate thick condition due to water volatilization, at this time, one measure needs to be added with corresponding blending liquid for adjustment, but frequent manual operation is troublesome.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a textile printing adjusting device based on the Internet of things big data technology.

The technical scheme adopted by the invention for solving the technical problems is as follows: a textile printing adjusting device based on the Internet of things big data technology comprises a bottom plate, support legs, a supporting mechanism, a stamping mechanism, a feeding mechanism, an adjusting mechanism and a limiting mechanism, the periphery of the bottom plate for placing other mechanisms is fixed with the support legs for supporting and fixing the whole device, the supporting mechanism used for arranging the stamping mechanism and the feeding mechanism is arranged around the top of the bottom plate, the inside of the supporting mechanism is provided with the stamping mechanism used for printing textile cloth, one side of the inside of the supporting mechanism, which is positioned at the stamping mechanism, is provided with the feeding mechanism used for adding textile printing dye to the stamping mechanism, the inside of one side of the supporting mechanism is provided with the adjusting mechanism which is used for conveniently adding the concoction liquid to the stamping mechanism, the two sides of the top of the bottom plate are provided with limiting mechanisms which are convenient for limiting and guiding woven cloth.

Specifically, the supporting mechanism comprises supporting rods, a top plate and a shielding frame, wherein one supporting rod is fixed on the periphery of the top of the bottom plate, the top of each supporting rod is fixed with the top plate, the shielding frame is fixed on the bottom of the top plate, and the shielding frame is fixed on the top of the bottom plate.

Specifically, the stamping mechanism comprises a first motor, a first screw rod, a mounting frame, a storage frame, a stamping roller, a pressure rod, a fixed block, a pressure end and a spring, the middle part of the top plate is provided with the first motor, the bottom end of the first motor is rotationally connected with the first screw rod, the first screw rod penetrates through the top plate and is in threaded connection with the inner part of the side wall of the mounting frame, the mounting frame is fixed at the bottom of the top plate, the storage frame is fixed at the top end inside the mounting frame, the fixed block is fixed in the middle of the bottom end of the storage frame, the pressure end is arranged in the fixed block, the bottom ends of the two opposite sides of the pressure end are respectively connected with one spring, the top of the spring is fixed on the inner wall of the fixed block, the inner wall, close to the bottom end, of the placement frame is connected with the embossing roller in a rotating mode, and the pressing rod is fixed on the side wall of the embossing roller.

Specifically, reinforced mechanism includes storage tank, hose, first gear, second gear, bull stick and stirring rake, lie in on the roof one side of first motor is fixed with the storage tank, the bottom of storage tank one side is connected with the hose, the hose link up the roof with hide the frame and extend to store the inside of frame, first screw rod is located be fixed with on the inside lateral wall of roof first gear, one side meshing of first gear has the second gear, just the diameter of second gear is greater than the diameter of first gear, the top of second gear is connected with the bull stick, the bull stick extends to the inside of storage tank, just the bull stick is located be fixed with a plurality ofly on the inside lateral wall of storage tank the stirring rake.

Specifically, the adjusting mechanism comprises an adjusting frame, a second motor, a third gear, a fourth gear, a connecting rod, a supporting block, a fifth gear, a supporting rod, a through pipe, a rotary disc and a fixed disc, wherein the second motor is arranged in the portion, close to the bottom end, of one side of the shielding frame, one end of the second motor is rotatably connected with the third gear, the fourth gear is meshed with the top of the third gear, the connecting rod is fixed in the middle of the fourth gear, the other end of the connecting rod is connected with the fixed disc, the supporting block is clamped on the side wall of the fixed disc, one end of the supporting block is clamped on the fifth gear, the fifth gear is arranged on one side of the supporting block, the supporting rod is fixed in the middle of the fifth gear, the other end of the supporting rod penetrates through the adjusting frame and extends to the inside of the through pipe, and the other end of the supporting rod is connected with the rotary disc, the siphunculus intercommunication the regulating frame with store the frame, the siphunculus deviates from the one end of regulating frame is equipped with a hole groove, the carousel contradict in the inner wall of siphunculus, just it has multichannel hole groove to be circumference array distribution on the carousel.

Specifically, stop gear includes guiding axle, spacing seat, knob, second screw rod, splint and ball, install one side at bottom plate top the guiding axle, the bottom plate top deviates from the both sides of guiding axle one end are fixed with one respectively spacing seat, the top of spacing seat is equipped with the knob, the bottom of knob is connected with the second screw rod, the second screw rod link up the top of spacing seat and rotate connect in the bottom inner wall of spacing seat, the inside block respectively in top of spacing seat and the bottom has one splint, second screw rod threaded connection is in two the inside of splint, just the top thread direction and the bottom thread opposite direction of second screw rod, two the inside block respectively of the relative one side of splint has a plurality ofly the ball.

The invention has the beneficial effects that:

(1) when the textile printing adjusting device based on the Internet of things big data technology is used, the feeding mechanism is arranged on one side of the stamping mechanism, and the dye in the storage tank is conveniently and continuously stirred and adjusted under the driving of the stamping mechanism through the corresponding gear transmission structure, so that the fluidity of the dye is enhanced, and the situation that the dye is thick quickly is avoided; namely: in first screw rod pivoted, drive first gear revolve, first gear revolve drives second gear revolve, and second gear revolve rotates and drives the bull stick and rotate, and the bull stick rotates and drives a plurality of stirring rakes and rotate simultaneously to stir the dyestuff of storing in the storage tank inside, make and avoid the dyestuff to produce the condition of thick at the excessive speed, simultaneously, the inside dyestuff of storage tank constantly lets in the inside of storing the frame through the hose.

(2) When the textile printing adjusting device based on the Internet of things big data technology is used, the adjusting mechanism is arranged inside the supporting mechanism, and corresponding blending liquid is conveniently and intermittently added into the storage tank through the corresponding gear transmission structure and the corresponding ratchet structure, so that the dye can be further prevented from being thick, and the using process is convenient; namely: in the printing and dyeing process, the user can need to switch on the second motor, the second motor rotates and drives the third gear to rotate, the third gear rotates and drives the fourth gear to rotate, the fourth gear drives the connecting rod to rotate, the connecting rod rotates and drives the fixed disk to rotate, along with the rotation of fixed disk, it is continuous to contradict to the fifth gear and stir to drive to support the piece, make the fifth gear be at the uniform velocity intermittent type nature rotation, then it is the rotation at the uniform velocity intermittent type nature equally to drive the carousel also, along with the continuous rotation of carousel, when the logical groove of logical pipe alignment siphunculus tip on the carousel, the tempering liquid will follow in the adjustment frame through the siphunculus gets into the storage box, thereby can be intermittent type's automation and add corresponding tempering liquid towards the storage box, make further avoid the dyestuff to.

(3) When the textile printing adjusting device based on the Internet of things big data technology is used, the limiting mechanisms are arranged on two sides of the top of the bottom plate, and the whole printing process of the textile cloth is conveniently clamped through the corresponding guide rolling shafts and the screw rod clamping block structures, so that the textile cloth can be prevented from being folded or deflected, the printing is prevented from being misplaced or omitted, and the printing quality is ensured; namely: in the use, when weaving cloth start work, the user can manually rotate the knob, the knob rotates and drives the second screw rod and rotate, along with the rotation of second screw rod, drive two splint and move mutually or back of the body mutually, when two splint move mutually, press from both sides tight to weaving cloth, after printing and dyeing finish, play the effect of direction through the guiding axle to weaving cloth again, thereby can avoid weaving cloth fold or off normal when printing and dyeing takes place, and then avoid the stamp to take place the dislocation or omit, make the quality that can guarantee the stamp.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural diagram of the overall structure of a preferred embodiment of a textile printing adjusting device based on the internet of things big data technology, provided by the invention;

FIG. 2 is a schematic view of a connection structure of the supporting mechanism, the stamping mechanism and the feeding mechanism shown in FIG. 1;

FIG. 3 is a schematic view of a connection structure of the support mechanism and the adjustment mechanism shown in FIG. 1;

FIG. 4 is a schematic view of a connection structure of the shielding frame, the abutting block and the fifth gear shown in FIG. 1;

FIG. 5 is a schematic view of a connection structure of the supporting mechanism, the stamping mechanism and the adjusting mechanism shown in FIG. 1;

FIG. 6 is a schematic view of the connection structure of the supporting rod and the turntable shown in FIG. 5;

FIG. 7 is an enlarged view of the part A shown in FIG. 1;

fig. 8 is an enlarged view of the structure of the portion B shown in fig. 2.

In the figure: 1. the device comprises a bottom plate, 2, a support leg, 3, a supporting mechanism, 31, a support rod, 32, a top plate, 33, a shielding frame, 4, a stamping mechanism, 41, a first motor, 42, a first screw rod, 43, a placing frame, 44, a storage frame, 45, a stamping roller, 46, a pressure rod, 47, a fixing block, 48, a pressure end, 49, a spring, 5, a feeding mechanism, 51, a storage tank, 52, a hose, 53, a first gear, 54, a second gear, 55, a rotating rod, 56, a stirring paddle, 6, an adjusting mechanism, 61, an adjusting frame, 62, a second motor, 63, a third gear, 64, a fourth gear, 65, a connecting rod, 66, a resisting block, 67, a fifth gear, 68, a support rod, 69, a through pipe, 69a, a rotating disc, 69b, a fixing disc, 7, a limiting mechanism, 71, a guide shaft, 72, a limiting seat, 73, a knob, 74, a second screw rod, 75, a clamping plate, 76 and a ball.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, the textile printing adjusting device based on the internet of things big data technology comprises a bottom plate 1, support legs 2, a supporting mechanism 3, an imprinting mechanism 4, a feeding mechanism 5, an adjusting mechanism 6 and a limiting mechanism 7, wherein the support legs 2 for supporting and fixing the whole device are fixed around the bottom of the bottom plate 1 for arranging other mechanisms, the supporting mechanism 3 for arranging the imprinting mechanism 4 and the feeding mechanism 5 is arranged around the top of the bottom plate 1, the imprinting mechanism 4 for printing textile cloth is arranged inside the supporting mechanism 3, the feeding mechanism 5 for adding textile printing dye to the imprinting mechanism 4 is arranged inside the supporting mechanism 3 at one side of the imprinting mechanism 4, the adjusting mechanism 6 for conveniently adding a blending liquid to the imprinting mechanism 4 is arranged inside one side of the supporting mechanism 3, the two sides of the top of the bottom plate 1 are provided with limiting mechanisms 7 which are convenient for limiting and guiding woven cloth.

Specifically, the supporting mechanism 3 includes a supporting rod 31, a top plate 32 and a shielding frame 33, the supporting rod 31 is fixed around the top of the bottom plate 1, the top plate 32 is fixed on the top of the four supporting rods 31, the shielding frame 33 is fixed on the bottom of the top plate 32, and the shielding frame 33 is fixed on the top of the bottom plate 1; when the stamping mechanism is used, the stamping mechanism 4 and the feeding mechanism 5 are fixed and arranged conveniently through the support rod 31 and the top plate 32, and the adjusting mechanism 6 is arranged conveniently through the shielding frame 33.

Specifically, the imprinting mechanism 4 includes a first motor 41, a first screw 42, a mounting frame 43, a storage frame 44, a platen roller 45, a pressing rod 46, a fixing block 47, a pressure-receiving end 48 and a spring 49, the first motor 41 is installed in the middle of the top plate 32, the first screw 42 is rotatably connected to the bottom end of the first motor 41, the first screw 42 penetrates through the top plate 32 and is in threaded connection with the inside of the sidewall of the mounting frame 43, the mounting frame 43 is fixed to the bottom of the top plate 32, the storage frame 44 is fixed to the top end of the inside of the mounting frame 43, the fixing block 47 is fixed to the middle of the bottom end of the storage frame 44, the pressure-receiving end 48 is arranged inside the fixing block 47, the bottom ends of the opposite sides of the pressure-receiving end 48 are respectively connected to one spring 49, and the top of the spring 49 is fixed to the inner wall of the fixing block, the inner wall of the mounting frame 43 close to the bottom end is rotatably connected with the embossing roller 45, and the side wall of the embossing roller 45 is fixed with the pressing rod 46; when the device is used, a user can switch on the first motor 41, the first motor 41 rotates to drive the first screw rod 42 to rotate, the arrangement frame 43 tends to rotate along with the rotation of the first screw rod 42, but the arrangement frame 43 is limited, the arrangement frame 43 can only lift up and down, when the arrangement frame 43 moves down, the storage frame 44 and the stamping roller 45 are driven to move down simultaneously, the stamping roller 45 moves down to a required proper height, during actual work, the stamping roller 45 continuously rotates along with the continuous rotation of the stamping roller 45, the pressing rod 46 is continuously driven to rotate along with the rotation of the pressing rod 46, the pressing end 48 can be continuously abutted and extruded, when the pressing end 48 is pressed, the spring 49 simultaneously contracts, and the top end of the pressing end 48 can enter the storage frame 44, the dye in the storage frame 44 drops onto the embossing roller 45, so that the embossing roller 45 can print the gauze on the bottom plate 1 conveniently.

Specifically, the feeding mechanism 5 comprises a storage tank 51, a hose 52, a first gear 53, a second gear 54, a rotating rod 55 and a stirring paddle 56, the storage tank 51 is fixed on the top plate 32 at one side of the first motor 41, the hose 52 is connected to the bottom end of the storage tank 51, the hose 52 extends through the top plate 32 and the shadow frame 33 to the inside of the storage frame 44, the first gear 53 is fixed on the side wall of the first screw rod 42 positioned in the top plate 32, one side of the first gear 53 is engaged with the second gear 54, the diameter of the second gear 54 is larger than that of the first gear 53, the rotating rod 55 is connected to the top of the second gear 54, the rotating rod 55 extends to the inside of the storage tank 51, a plurality of stirring paddles 56 are fixed on the side wall of the rotating rod 55 positioned in the storage tank 51; when the dye printing device is used, the feeding mechanism 5 is arranged on one side of the printing mechanism 4, and the dye in the storage tank 51 is conveniently and continuously stirred and adjusted under the driving of the printing mechanism 4 through a corresponding gear transmission structure, so that the fluidity of the dye is enhanced, and the situation that the dye is thick quickly is avoided; namely: first screw rod 42 pivoted in, drives first gear 53 rotates, first gear 53 rotates the drive second gear 54 rotates, second gear 54 rotates the drive bull stick 55 rotates, bull stick 55 rotates and drives a plurality ofly stirring rake 56 rotates simultaneously to store in the inside dyestuff of storage tank 51 stirs, makes and to avoid the too fast thick condition that produces of dyestuff, simultaneously, the inside dyestuff of storage tank 51 passes through hose 52 constantly lets in store up the inside of frame 44.

Specifically, the adjusting mechanism 6 includes an adjusting frame 61, a second motor 62, a third gear 63, a fourth gear 64, a connecting rod 65, a resisting block 66, a fifth gear 67, a supporting rod 68, a through pipe 69, a rotary disk 69a and a fixed disk 69b, the second motor 62 is arranged in the portion, close to the bottom end, of one side of the shielding frame 33, one end of the second motor 62 is rotatably connected with the third gear 63, the top of the third gear 63 is engaged with the fourth gear 64, the connecting rod 65 is fixed in the middle of the fourth gear 64, the other end of the connecting rod 65 is connected with the fixed disk 69b, the resisting block 66 is clamped on the side wall of the fixed disk 69b, one end of the resisting block 66 is clamped on the fifth gear 67, the fifth gear 67 is arranged on one side of the resisting block 66, the supporting rod 68 is fixed in the middle of the fifth gear 67, the other end of the supporting rod 68 penetrates through the adjusting frame 61 and extends to the interior of the through pipe 69, the other end of the supporting rod 68 is connected with the rotating disc 69a, the through pipe 69 is communicated with the adjusting frame 61 and the storage frame 44, one end of the through pipe 69, which is far away from the adjusting frame 61, is provided with a hole groove, the rotating disc 69a is abutted against the inner wall of the through pipe 69, and a plurality of hole grooves are distributed on the rotating disc 69a in a circumferential array manner; when the dye storage box is used, the adjusting mechanism 6 is arranged in the supporting mechanism 3, and corresponding blending liquid is conveniently and intermittently added into the storage box 44 through a corresponding gear transmission structure and a corresponding ratchet structure, so that the dye can be further prevented from being thick, and the use process is convenient; namely: in the printing and dyeing process, a user may need to turn on the second motor 62, the second motor 62 rotates to drive the third gear 63 to rotate, the third gear 63 rotates to drive the fourth gear 64 to rotate, the fourth gear 64 drives the connecting rod 65 to rotate, the connecting rod 65 rotates to drive the fixed disk 69b to rotate, the abutting block 66 is driven to continuously abut against and toggle the fifth gear 67 along with the rotation of the fixed disk 69b, the fifth gear 67 rotates intermittently at a constant speed, the supporting rod 68 is driven to rotate intermittently at a constant speed, the rotating disk 69a is finally driven to rotate intermittently at a constant speed, and as the rotating disk 69a rotates continuously, when the through groove on the rotating disk 69a aligns with the through groove at the end of the through pipe 69, the blending liquid enters the storage tank 44 from the adjusting frame 61 through the through pipe 69, therefore, corresponding blending liquid can be intermittently and automatically added into the storage tank 44, the dye is further prevented from being thick, and the use process is facilitated.

Specifically, the limiting mechanism 7 comprises a guide shaft 71, a limiting seat 72, a knob 73, a second screw 74, a clamping plate 75 and a ball 76, the guide shaft 71 is arranged on one side of the top of the bottom plate 1, the two sides of one end of the top of the bottom plate 1, which is far away from the guide shaft 71, are respectively fixed with one limiting seat 72, the knob 73 is arranged at the top of the limiting seat 72, the second screw 74 is connected to the bottom end of the knob 73, the second screw 74 penetrates the top of the limiting seat 72 and is rotatably connected to the inner wall of the bottom end of the limiting seat 72, the clamping plates 75 are respectively clamped inside the top end and the bottom end of the limiting seat 72, the second screw 74 is connected to the insides of the two clamping plates 75 in a threaded manner, the thread directions of the top end and the bottom end of the second screw 74 are opposite, and a plurality of balls 76 are respectively clamped in the opposite sides of the two clamping plates 75; when the spinning cloth clamping device is used, the limiting mechanisms 7 are arranged on two sides of the top of the bottom plate 1, and the clamping effect on the whole printing process of the spinning cloth is conveniently achieved through the corresponding guide rolling shafts and the corresponding screw rod clamping block structures, so that the spinning cloth can be prevented from being folded or deflected, the printing is prevented from being misplaced or omitted, and the printing quality is guaranteed; namely: in the using process, when the textile fabric starts to work, a user can manually rotate the knob 73, the knob 73 rotates to drive the second screw rod 74 to rotate, the two clamping plates 75 are driven to move in the opposite direction or in the opposite direction along with the rotation of the second screw rod 74, when the two clamping plates 75 move in the opposite direction, the textile fabric is clamped, and after printing and dyeing are finished, the guide shaft 71 plays a role in guiding the textile fabric, so that wrinkles or deviation of the textile fabric during printing and dyeing can be avoided, further, printing dislocation or omission can be avoided, and the printing quality can be ensured.

When the invention is used, firstly, a user can switch on the first motor 41, the first motor 41 rotates to drive the first screw rod 42 to rotate, the arrangement frame 43 generates a rotating trend along with the rotation of the first screw rod 42, but the arrangement frame 43 is limited, the mounting frame 43 can only be lifted up and down, when the mounting frame 43 moves down, the storage frame 44 and the stamping roller 45 are driven to move down simultaneously, the stamping roller 45 moves down to a proper required height, and during actual work, along with the continuous rotation of the stamping roller 45, meanwhile, the pressing rod 46 is driven to rotate continuously, and along with the rotation of the pressing rod 46, the pressed end 48 is continuously pressed against and extruded, when the compression tip 48 is compressed, the spring 49 contracts simultaneously, the top end of the compression tip 48 enters the inside of the storage frame 44, the dye in the storage frame 44 can drop onto the embossing roller 45, so that the embossing roller 45 can print the gauze on the bottom plate 1 conveniently; meanwhile, when the first screw 42 rotates, the first gear 53 is driven to rotate, the first gear 53 rotates to drive the second gear 54 to rotate, the second gear 54 rotates to drive the rotating rod 55 to rotate, and the rotating rod 55 rotates to drive the stirring paddles 56 to rotate simultaneously, so that the dye stored in the storage tank 51 is stirred, the situation that the dye is too thick can be avoided, and meanwhile, the dye in the storage tank 51 is continuously introduced into the storage frame 44 through the hose 52; in the real printing and dyeing process, a user can turn on the second motor 62, the second motor 62 rotates to drive the third gear 63 to rotate, the third gear 63 rotates to drive the fourth gear 64 to rotate, the fourth gear 64 drives the connecting rod 65 to rotate, the connecting rod 65 rotates to drive the fixed disk 69b to rotate, the abutting block 66 is driven to continuously abut and stir the fifth gear 67 along with the rotation of the fixed disk 69b, the fifth gear 67 rotates intermittently at a constant speed, the supporting rod 68 is driven to rotate intermittently at a constant speed, finally the turntable 69a is driven to rotate intermittently at a constant speed, the turntable 69a rotates continuously, when the through groove on the turntable 69a is aligned with the through groove at the end of the through pipe 69, the blending liquid enters the storage tank 44 from the adjusting frame 61 through the through pipe 69, and the corresponding blending liquid can be added into the storage tank 44 intermittently and automatically, the dye is further prevented from being thick, and the use process is convenient; in addition, when weaving cloth start work, the user can manually rotate knob 73, knob 73 rotates and drives second screw rod 74 and rotate, along with the rotation of second screw rod 74, drive two splint 75 and move mutually or carry on mutually in opposite directions, when two splint 75 move in opposite directions, press from both sides tightly weaving cloth, after printing and dyeing finish, play the effect of direction through guiding axle 71 again to weaving cloth, thereby can avoid weaving cloth fold or off normal when printing and dyeing takes place, and then avoid the stamp to take place the dislocation or omit, make the quality that can guarantee the stamp.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The textile printing adjusting device based on the Internet of things big data technology is characterized by comprising a bottom plate (1), support legs (2), supporting mechanisms (3), an imprinting mechanism (4), a feeding mechanism (5), an adjusting mechanism (6) and a limiting mechanism (7), wherein the support legs (2) which are used for supporting and fixing the whole device are fixed around the bottom of the bottom plate (1) for arranging other mechanisms, the supporting mechanisms (3) which are used for arranging the imprinting mechanism (4) and the feeding mechanism (5) are arranged around the top of the bottom plate (1), the imprinting mechanism (4) used for printing textile cloth is arranged inside the supporting mechanisms (3), the feeding mechanism (5) used for adding textile printing dye to the imprinting mechanism (4) is arranged on one side of the imprinting mechanism (4) inside the supporting mechanisms (3), the automatic adjusting mechanism is characterized in that the adjusting mechanism (6) used for conveniently adding a blending liquid to the stamping mechanism (4) is arranged in one side of the supporting mechanism (3), and the limiting mechanisms (7) used for conveniently limiting and guiding woven cloth are arranged on the two sides of the top of the bottom plate (1).

2. The textile printing adjusting device based on the internet of things big data technology as claimed in claim 1, characterized in that: supporting mechanism (3) include vaulting pole (31), roof (32) and hide frame (33), be fixed with one respectively around bottom plate (1) top vaulting pole (31), four the top of vaulting pole (31) is fixed with jointly roof (32), the bottom of roof (32) is fixed with hide frame (33), just hide frame (33) and be fixed in the top of bottom plate (1).

3. The textile printing adjusting device based on the internet of things big data technology as claimed in claim 2, characterized in that: the imprinting mechanism (4) comprises a first motor (41), a first screw rod (42), a placement frame (43), a storage frame (44), an imprinting roller (45), a pressing rod (46), a fixing block (47), a compression end (48) and a spring (49), wherein the first motor (41) is installed in the middle of the top plate (32), the first screw rod (42) is connected to the bottom end of the first motor (41) in a rotating mode, the first screw rod (42) penetrates through the top plate (32) and is in threaded connection with the inner portion of the side wall of the placement frame (43), the placement frame (43) is fixed to the bottom of the top plate (32), the storage frame (44) is fixed to the top end of the placement frame (43), the fixing block (47) is fixed to the middle of the bottom end of the storage frame (44), and the compression end (48) is arranged inside the fixing block (47), the bottom of the two opposite sides of the pressure-bearing end (48) is respectively connected with one spring (49), the top of each spring (49) is fixed on the inner wall of the corresponding fixed block (47), the inner wall, close to the bottom, of the corresponding placement frame (43) is rotatably connected with the corresponding embossing roller (45), and the pressing rod (46) is fixed on the side wall of the corresponding embossing roller (45).

4. The textile printing adjusting device based on the Internet of things big data technology as claimed in claim 3, characterized in that: the feeding mechanism (5) comprises a storage tank (51), a hose (52), a first gear (53), a second gear (54), a rotating rod (55) and a stirring paddle (56), wherein the storage tank (51) is fixed on one side of the first motor (41) on the top plate (32), the hose (52) is connected to the bottom end of one side of the storage tank (51), the hose (52) penetrates through the top plate (32) and the shielding frame (33) and extends to the inside of the storage frame (44), the first gear (53) is fixed on the side wall of the inside of the top plate (32) of the first screw rod (42), the second gear (54) is meshed on one side of the first gear (53), the diameter of the second gear (54) is larger than that of the first gear (53), and the rotating rod (55) is connected to the top of the second gear (54), the rotating rod (55) extends to the inside of the storage tank (51), and a plurality of stirring paddles (56) are fixed on the side wall of the rotating rod (55) positioned in the inside of the storage tank (51).

5. The textile printing adjusting device based on the Internet of things big data technology as claimed in claim 3, characterized in that: the adjusting mechanism (6) comprises an adjusting frame (61), a second motor (62), a third gear (63), a fourth gear (64), a connecting rod (65), a resisting block (66), a fifth gear (67), a supporting rod (68), a through pipe (69), a rotary disc (69a) and a fixed disc (69b), the second motor (62) is arranged in the position, close to the bottom end, of one side of the shielding frame (33), one end of the second motor (62) is rotatably connected with the third gear (63), the fourth gear (64) is meshed with the top of the third gear (63), the connecting rod (65) is fixed to the middle of the fourth gear (64), the fixed disc (69b) is connected to the other end of the connecting rod (65), the resisting block (66) is clamped on the side wall of the fixed disc (69b), and one end of the resisting block (66) is clamped on the fifth gear (67), fifth gear (67) are located support one side of piece (66), just the middle part of fifth gear (67) is fixed with branch (68), the other end of branch (68) link up adjust frame (61) extend to the inside of siphunculus (69), just the other end of branch (68) is connected with carousel (69a), siphunculus (69) intercommunication adjust frame (61) with store frame (44), siphunculus (69) deviate from the one end of adjust frame (61) is equipped with a hole groove, carousel (69a) contradict in the inner wall of siphunculus (69), just it has multichannel hole groove to be circumference array distribution on carousel (69 a).

6. The textile printing adjusting device based on the internet of things big data technology as claimed in claim 1, characterized in that: the limiting mechanism (7) comprises a guide shaft (71), a limiting seat (72), a knob (73), a second screw (74), clamping plates (75) and balls (76), wherein the guide shaft (71) is installed on one side of the top of the bottom plate (1), one limiting seat (72) is fixed on each of two sides of one end, deviating from the guide shaft (71), of the top of the bottom plate (1), the knob (73) is arranged on the top of the limiting seat (72), the bottom end of the knob (73) is connected with the second screw (74), the second screw (74) penetrates through the top of the limiting seat (72) and is rotatably connected to the inner wall of the bottom end of the limiting seat (72), the clamping plates (75) are clamped inside the top end and inside the bottom end of the limiting seat (72) respectively, and the second screw (74) is in threaded connection with the two clamping plates (75), and the thread direction of the top end of the second screw rod (74) is opposite to that of the bottom end of the second screw rod, and a plurality of balls (76) are respectively clamped in the opposite sides of the two clamping plates (75).