CN112776467A - Textile fabric printing machine - Google Patents

Abstract

The invention discloses a textile fabric printing machine, which structurally comprises a dryer, a fan, an air outlet, a guide and feed roller, a conveying table, a printing flower rack, an ink storage cavity, a printing roller, a leveling device, a wind-up roller and a machine body, wherein when the printing machine is used after improvement, the textile cloth is subjected to joint guide and feed through the matching of a scissor supporting piece and a guide arc plate, the textile cloth can drive a rotating wheel to rotate when moving, a friction pad can be contacted with a leveling piece to generate resistance, the rotating speed of the rotating wheel is controlled, the rotating wheel drives the leveling piece to rotate to output the textile cloth at a constant speed, the textile cloth is stably pressed on the conveying table through a leveling rod, displacement can not occur due to the movement of equipment, the leveling rod and the rotating wheel rotate to circularly convey the textile cloth at a constant speed, the uniform stress of the textile cloth is ensured, the textile cloth is not excessively pulled, and the printed textile cloth is protected, the printing efficiency of weaving cloth is improved.

Description

Textile fabric printing machine

Technical Field

The invention relates to the field of textiles, in particular to a textile fabric printing machine.

Background

Along with the improvement of people's standard of living, the textile industry of china has obtained rapid development, and textile fabric divides into weft knitting knitted fabric and warp knitting knitted fabric according to weaving method, prints on textile fabric through printing machine, props flat textile fabric through flattening the component for printing equipment can print on textile fabric fast, when textile fabric carries out the printing, needs the place of improvement:

when textile fabric carries out the printing, need keep flat textile fabric and stamp on the stamp position, at the in-process of stamp, equipment can remove on textile fabric and control and stamp textile fabric, equipment can produce certain wind-force when removing, general textile fabric all is on the direct stamp mesa of placing, flatten with external force, textile fabric can receive the wind-force that equipment removed the production and shift appearing, the dislocation appears in the stamp that leads to textile fabric, influence textile fabric's stamp effect, and press at textile fabric at ordinary times, if pull the surface fabric excessively, lead to the surface fabric to appear pulling the wrinkle easily, can't show the complete stamp of surface fabric, reduce textile fabric's stamp effect.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a textile fabric printing machine.

In order to achieve the purpose, the invention is realized by the following technical scheme: a textile fabric printing machine structurally comprises a dryer, a fan, an air outlet, a guide roller, a conveying table, a printing flower stand, an ink storage cavity, a printing roller, a leveling device, a winding roller and a machine body, the dryer is communicated with the fan, the fan is provided with six air outlets which are communicated with each other, the air outlet penetrates through the bottom of the machine body, the machine body is provided with a conveying table embedded and fixed with the machine body, the top of the conveying table is contacted with the bottom of the printing frame, the printing roller is connected with the conveying table through the printing flower rack, two ink storage cavities are arranged at the top of the printing flower rack and communicated with each other, the two ink storage cavities penetrate through the machine body, the leveling device is arranged on two sides inside the machine body in an inserted manner, the guide roller and the winding roller are arranged on two sides outside the machine body respectively, the guide roller and the winding roller are arranged on the same straight line, and the guide roller and the winding roller are connected with the leveling device through the machine body.

The leveling device comprises two positioning plates, wrinkle-removing grooves, a frame body, leveling components and a material conveying port, wherein the two positioning plates are vertically embedded in the frame body, the two positioning plates are provided with the wrinkle-removing grooves and embedded in the wrinkle-removing grooves, the leveling components are twelve, twelve leveling components are uniformly and equivalently arranged on the two positioning plates, the leveling components are connected with the wrinkle-removing grooves through the positioning plates, the wrinkle-removing grooves and the leveling components are arranged on the same plane, the frame body is parallelly inserted and embedded in the machine body, and the leveling components are connected with a guide roller and a winding roller through the machine body.

As a further improvement of the invention, the leveling component comprises a rotating wheel, a friction pad, a triangular plate, a limiting cavity and a flattening piece, the flattening piece is attached to the rotating wheel, the flattening piece is in contact with the friction pad, the friction pad is arranged on the triangular plate, nine friction pads and nine triangular plates are arranged on the rotating wheel, the nine friction pads and the triangular plate are arranged on the limiting cavity in an equidistant arc mode, the limiting cavity is connected with the flattening piece through the friction pad, the limiting cavity is connected with the wrinkle removing groove through a positioning plate, and the rotating wheel is connected with the guide roller and the winding roller through a machine body.

As a further improvement of the invention, the flattening piece comprises a clamping sleeve, a sticky felt, leveling rods and an adhesive net, the clamping sleeve is provided with the leveling rods which penetrate through the clamping sleeve, the leveling rods are arranged on the clamping sleeve in an equidistant annular mode, the end, facing the leveling rods, of the clamping sleeve is provided with the adhesive net, the clamping sleeve and the adhesive net are attached to each other, the adhesive net is connected with the sticky felt through the clamping sleeve, the sticky felt is tightly attached to the clamping sleeve, the bottom of the clamping sleeve is attached to the rotating wheel, the leveling rods are in contact with the friction pad, and the clamping sleeve is connected with the limiting cavity.

As a further improvement of the invention, the leveling rod comprises a supporting element, an elastic band, a guard plate, a silica gel pad and a movable pressure rod, wherein the supporting element is arranged inside the movable pressure rod, the silica gel pad is arranged on both sides of the pressure rod and is attached to the two sides of the pressure rod, the elastic band buckled with the silica gel pad is arranged on the silica gel pad, the tops of the two silica gel pads are connected with the guard plate, the guard plate is arranged on the movable pressure rod in parallel, the guard plate is connected with the supporting element through the movable pressure rod, the movable pressure rod is inserted and embedded on the clamping sleeve, and the guard plate is contacted with the friction.

As a further improvement of the invention, the supporting element comprises four clamping balls, a brace and a clamping plate, the four clamping balls are arranged in parallel and equidistantly, the four clamping balls are connected through the brace, one end of the clamping plate is vertically connected to the guard plate, and the clamping plate is arranged in the movable pressure rod.

As a further improvement of the invention, the wrinkle removing groove comprises an interface, two scissors supporting pieces, a shell, sliding blocks and guide plates, wherein the interface is arranged on one side of the shell, twelve scissors supporting pieces are uniformly and equivalently arranged at two ends of the shell, the sliding blocks are arranged between the two scissors supporting pieces and are attached to the two scissors supporting pieces, the guide plates are arranged at one ends of the shell far away from the interface, the shell is arranged between the two positioning plates, and the guide plates are connected with the limiting cavity through the positioning plates.

As a further improvement of the invention, the sliding block comprises a pressure-relieving block, a base plate, a sliding plate and a fixed seat, wherein the pressure-relieving block is arranged at the top of the fixed seat, the top of the pressure-relieving block is attached to the base plate, one end of the base plate, far away from the base plate, is connected with the sliding plate, and the fixed seat is arranged between the two scissor supporting pieces.

As a further improvement of the invention, the sliding plate comprises three auxiliary wheels, plastic sheets and arc guide plates, wherein the three plastic sheets are in arc-shaped contact with the arc guide plates at equal intervals, the auxiliary wheels are arranged between the two plastic sheets, the auxiliary wheels are connected to the arc guide plates, and the bottoms of the arc guide plates are connected to the base plate.

Advantageous effects

The textile fabric printing machine provided by the invention has the following beneficial effects:

1. the invention is provided with the combination arrangement of the rotating wheel, the friction pad, the triangular plate and the flattening piece, the rotating wheel can drive the flattening piece to rotate together in the rotating process, the top of the flattening piece can be contacted with the friction pad to generate friction force when rotating, the triangular plate supports the friction pad through the stability of the triangle, the friction pad and the flattening piece are prevented from retracting when being contacted and stressed, the rotating speed of the rotating wheel is effectively controlled, and the woven cloth can be stably output at a constant speed.

2. The invention is provided with a combination of an elastic belt, a silica gel pad, a clamping ball and a brace, wherein two rotating wheels rotate simultaneously, a leveling rod can contact with a woven cloth to be extruded and retracted, the silica gel pad on the leveling rod can retract inwards to be tightly attached to the woven cloth under the action of extrusion force, the leveling rod is supported and pressed through the clamping ball, after the pressed leveling rod leaves the woven cloth along with the rotation of the rotating wheels, the brace can hold the clamping ball to drive the leveling rod to rebound upwards and reset quickly, the elastic belt can rebound inwards to hold the silica gel pad upwards after no pressure, so that the leveling rod can reset quickly, the woven cloth can be conveyed at a constant speed circularly, and the uniform stress of the woven cloth is ensured.

3. According to the invention, the combination of the pressure-reducing block, the auxiliary wheel, the plastic sheet and the arc guide plate is arranged, the textile cloth is guided to the sliding plate by the shear supporting piece, the arc guide plate is semi-arc-shaped, the textile cloth is guided to the sliding plate, the surface of the plastic sheet on the plastic sheet is fast and smoothly slid on the plastic sheet due to the arc inertia of the arc guide plate, the friction resistance contacted with the textile cloth is effectively reduced, the textile cloth slides on the arc guide plate, the pressure-reducing block can be bounced up and down after receiving the sliding gravity of the textile cloth, so that the textile cloth can be fast guided to the shear supporting piece of the next section through the arc guide plate, and the section guide is carried out by matching the shear supporting piece and the arc guide plate.

In conclusion, the novel textile fabric printing machine is formed by combining the dryer, the fan, the air outlet, the guide roller, the conveyor belt, the printing flower rack, the ink storage cavity, the printing roller, the leveling device, the winding roller and the machine body, the shear supporting piece is matched with the arc guide plate to guide the textile cloth in a joint way, the textile cloth drives the rotating wheel to rotate when moving, the friction pad can be contacted with the flattening piece to generate resistance, the rotating speed of the rotating wheel is controlled, the rotating wheel drives the flattening piece to rotate so as to output the woven cloth at a constant speed, compress tightly on conveying bench through leveling rod will weaving cloth is stable, can not appear the displacement because of the removal of equipment, and leveling rod follows the runner and rotates to circulate at the uniform velocity and carry weaving cloth, guarantees that weaving cloth's atress is even, can not drag weaving cloth excessively, protects weaving cloth after the stamp, improves weaving cloth's stamp efficiency.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a textile fabric printing machine of the present invention;

fig. 2 is a schematic view of the internal structure of the leveling device of the present invention.

FIG. 3 is a schematic view of a static cross-sectional structure of a leveling assembly of the present invention.

FIG. 4 is a schematic view of a dynamic cross-sectional structure of a leveling assembly of the present invention.

FIG. 5 is a schematic cross-sectional view of a flattening member according to the present invention.

Fig. 6 is a schematic view of the internal structure of the leveling rod of the present invention.

FIG. 7 is a cross-sectional view of a support member according to the present invention.

Fig. 8 is a schematic view of the internal structure of the wrinkle removing groove of the present invention.

FIG. 9 is a schematic cross-sectional view of the slider of the present invention.

Fig. 10 is a schematic sectional view of the slide board of the present invention.

In the figure: the drying machine comprises a drying machine 1, a fan 2, an air outlet 3, a guide roller 4, a conveying table 5, a printing frame 6, an ink storage cavity 7, a printing roller 8, a leveling device 9, a winding roller 10, a machine body 11, a positioning plate 91, a wrinkle removing groove 92, a frame body 93, a leveling component 94, a material conveying port 95, a rotating wheel 941, a friction pad 942, a triangular plate 943, a limiting cavity 944, a flattening piece 945, a clamping sleeve 451, a felt 452, a leveling rod 453, an adhesive net 454, a supporting element 1, an elastic band a2, a protective plate a3, a silica gel pad 4, a movable pressure rod a5, a clamping ball a11, a brace a12, a clamping plate a13, an interface 921, a scissors supporting piece 922, a housing 493923, a sliding block 924, a guide plate 925, a pressure reducing block 241, a backing plate 242, a sliding plate 243, a fixing seat 244, an auxiliary wheel b2, a plastic sheet b2 and.

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.

Example one

Referring to fig. 1, the present invention provides a technical solution: a textile fabric printing machine structurally comprises a dryer 1, a fan 2, an air outlet 3, a guide roller 4, a conveying table 5, a printing frame 6, ink storage cavities 7, a printing roller 8, a leveling device 9, a winding roller 10 and a machine body 11, wherein the dryer 1 is communicated with the fan 2, six air outlets 3 are formed in the fan 2, the air outlet 3 is communicated with the machine body 11, the conveying table 5 is embedded in the machine body 11, the top of the conveying table 5 is contacted with the bottom of the printing frame 6, the printing roller 8 is connected with the conveying table 5 through the printing frame 6, the top of the printing frame 6 is provided with two ink storage cavities 7, the two ink storage cavities 7 are communicated with the machine body 11, the leveling device 9 is inserted into the machine body 11 and arranged on two sides inside the machine body 11, the guide roller 4 and the winding roller 10 are arranged on two sides outside the machine body 11 respectively, the guide roller 4 and the winding roller 10 are arranged on the same straight line, and the guide roller 4 and the winding roller 10 are connected with the leveling device 9 through a machine body 11.

Referring to fig. 2, the leveling device 9 includes two positioning plates 91, wrinkle-removing grooves 92, a frame body 93, leveling assemblies 94 and a material conveying port 95, the two positioning plates 91 are vertically embedded in the frame body 93, the positioning plates 91 are provided with wrinkle-removing grooves 92, the two wrinkle-removing grooves are embedded in the two wrinkle-removing grooves, the leveling assemblies 94 are twelve, twelve leveling assemblies 94 are equally and equally installed on the two positioning plates 91, the leveling assemblies 94 are connected with the wrinkle-removing grooves 92 through the positioning plates 91, the wrinkle-removing grooves 92 and the leveling assemblies 94 are arranged on the same plane, the frame body 93 is parallelly inserted into the machine body 11, and the leveling assemblies 94 are connected with the delivery roll 4 and the wind-up roll 10 through the machine body 11.

Referring to fig. 3-4, the leveling assembly 94 includes a rotating wheel 941, friction pads 942, a triangle 943, a limiting cavity 944 and a pressing member 945, the rotating wheel 941 is provided with the pressing member 945 attached to the rotating wheel 941, the pressing member 945 contacts with the friction pads 942, the friction pads 942 are mounted on the triangle 943, nine friction pads 942 and the triangle 943 are arranged on the limiting cavity 944, the nine friction pads 942 and the triangle 943 are arranged in an equidistant arc shape, the limiting cavity 944 is connected with the pressing member 945 through the friction pads 942, the limiting cavity 944 is connected with the wrinkle removing groove 92 through the positioning plate 91, and the rotating wheel 941 is connected with the guide roller 4 and the wind-up roller 10 through the machine body 11.

Foretell friction pad 942 is the slew velocity who is used for controlling runner 941, friction pad 942 is connected on spacing chamber 944, when flattening piece 945 is when contacting weaving cloth, runner 941 can receive weaving cloth's drive and pull and rotate, flattening piece 945 can follow the runner 941 and rotate and exert pressure to weaving cloth, flattening piece 945 can contact with friction pad 942 in the rotation process and produce certain frictional resistance, effectively control the slew velocity of runner 941, prevent that the runner 941 rotational speed is too fast, lead to weaving cloth to appear damaging.

Referring to fig. 5, the flattening part 945 includes a sleeve 451, a felt 452, leveling rods 453 and an adhesive net 454, the sleeve 451 is provided with the leveling rods 453 penetrating through the sleeve 451, the leveling rods 453 are annularly arranged on the sleeve 451 at equal intervals, one end of the sleeve 451 facing the leveling rods 453 is provided with the adhesive net 454, the adhesive net 454 and the adhesive net are attached to each other, the adhesive net 454 is connected with the felt 452 through the sleeve 451, the felt 452 is attached to the sleeve 451, the bottom of the sleeve 451 is attached to a rotating wheel 941, the leveling rods 453 are in contact with a friction pad 942, and the sleeve 451 is connected with a limit chamber 944.

The adhesive net 454 is used to match with the leveling rod 453, the leveling rods 453 of the two leveling pieces 945 simultaneously press and convey the textile cloth, the leveling rods 453 contact the textile cloth, cotton wool on the textile cloth is scattered and attached to the leveling rods 453 due to certain wind force generated by rotation of the leveling rods 453, and the cotton wool scattered and attached to the leveling rods 453 is adsorbed by the adhesive net 454, so that the cotton wool is prevented from being accumulated on the leveling rods 453.

Referring to fig. 6, the leveling rod 453 includes a supporting element a1, an elastic band a2, a protective plate a3, a silica gel pad a4, and a movable pressure lever a5, the supporting element a1 is installed inside the movable pressure lever a5, silica gel pads a4 are installed on both sides of the pressure lever a5 and are attached to each other, the silica gel pad a4 is provided with the elastic band a2 fastened to the silica gel pad a4, the tops of the two silica gel pads a4 are connected to the protective plate a3, the protective plate a3 is installed on the movable pressure lever a5 in parallel, the protective plate a3 is connected to the supporting element a1 through the movable pressure lever a5, the movable pressure lever a5 is inserted into the ferrule 451, and the protective plate a3 is connected to the friction pad 942.

The elastic band a2 is used for being matched with the silica gel pad a4, the two leveling rods 453 are used for conveying textile cloth, the silica gel pad a4 retracts inwards under stress, and after the leveling rods 453 leave the textile cloth, the elastic band a2 rebounds inwards to drag the silica gel pad a4 upwards, so that the silica gel pad a4 can reset quickly, and the silica gel pad a4 can convey the textile cloth circularly.

Referring to fig. 7, the supporting element a1 includes snap balls a11, a brace a12, and a snap plate a13, the snap balls a11 are four, four snap balls a11 are equidistantly and parallelly installed inside the snap plate a13, the four snap balls a11 are connected through the brace a12, one end of the snap plate a13 is vertically connected to the brace a3, and the snap plate a13 is installed inside the movable press rod a 5.

The brace a12 is used for connecting the clamping ball a11, the clamping ball a11 has no good elasticity, the two leveling rods 453 rotate to extrude the textile cloth at the same time, the two leveling rods 453 contract inwards under pressure and are supported and pressed through the clamping ball a11, the leveling rods 453 are pushed by the mutual extrusion of the textile cloth and the clamping ball a11 to generate mutual repulsion, and the brace a12 can hold the clamping ball a11 to drive the leveling rods 453 to rebound and reset quickly upwards after the leveling rods 453 are pressed.

Example two

Referring to fig. 1, the present invention provides a technical solution: a textile fabric printing machine structurally comprises a dryer 1, a fan 2, an air outlet 3, a guide roller 4, a conveying table 5, a printing frame 6, ink storage cavities 7, a printing roller 8, a leveling device 9, a winding roller 10 and a machine body 11, wherein the dryer 1 is communicated with the fan 2, six air outlets 3 are formed in the fan 2, the air outlet 3 is communicated with the machine body 11, the conveying table 5 is embedded in the machine body 11, the top of the conveying table 5 is contacted with the bottom of the printing frame 6, the printing roller 8 is connected with the conveying table 5 through the printing frame 6, the top of the printing frame 6 is provided with two ink storage cavities 7, the two ink storage cavities 7 are communicated with the machine body 11, the leveling device 9 is inserted into the machine body 11 and arranged on two sides inside the machine body 11, the guide roller 4 and the winding roller 10 are arranged on two sides outside the machine body 11 respectively, the guide roller 4 and the winding roller 10 are arranged on the same straight line, and the guide roller 4 and the winding roller 10 are connected with the leveling device 9 through a machine body 11.

Referring to fig. 2, the leveling device 9 includes two positioning plates 91, wrinkle-removing grooves 92, a frame body 93, leveling assemblies 94 and a material conveying port 95, the two positioning plates 91 are vertically embedded in the frame body 93, the positioning plates 91 are provided with wrinkle-removing grooves 92, the two wrinkle-removing grooves are embedded in the two wrinkle-removing grooves, the leveling assemblies 94 are twelve, twelve leveling assemblies 94 are equally and equally installed on the two positioning plates 91, the leveling assemblies 94 are connected with the wrinkle-removing grooves 92 through the positioning plates 91, the wrinkle-removing grooves 92 and the leveling assemblies 94 are arranged on the same plane, the frame body 93 is parallelly inserted into the machine body 11, and the leveling assemblies 94 are connected with the delivery roll 4 and the wind-up roll 10 through the machine body 11.

Please refer to fig. 8, the wrinkle removing groove 92 includes an interface 921, scissors supporting members 922, a housing 923, a sliding block 924, a guiding plate 925, the interface 921 is disposed on one side of the housing 923, the scissors supporting members 922 are disposed twelve, the even and equal arrangement is disposed at two ends of the housing 923, the sliding block 924 is disposed between the two scissors supporting members 922, the two scissors supporting members are attached to each other, the guiding plate 925 is installed at one end of the housing 923, which is far away from the interface 921, the housing 923 is installed between the two positioning plates 91, and the guiding plate 925 is connected to the limiting cavity 944 through the positioning plates 91.

Foretell deflector 925 is used for cooperating scissors to prop up piece 922, through inside interface 921 will be weaved cloth and lead to casing 923, prop up piece 922 through the scissors at the inside both ends of casing 923 and lead to weaving cloth, at the in-process of leading, scissors prop up piece 922 can receive the gravity of weaving cloth and can open and shut the activity for weaving cloth can fluctuate on scissors props up piece 922, can lead fast to the leveling subassembly 94 with weaving cloth.

Referring to fig. 9, the sliding block 924 includes a pressure-reducing block 241, a pad 242, a sliding plate 243, and a fixing seat 244, the pressure-reducing block 241 is installed on the top of the fixing seat 244, the top of the pressure-reducing block 241 is attached to the pad 242, one end of the pad 242 away from the pad 242 is connected to the sliding plate 243, and the fixing seat 244 is installed between two scissors-supporting members 922.

Foretell slow-pressing piece 241 is used for cooperating slide 243, and slide 243 connects on scissors props piece 922, and effective cooperation weaving cloth is led and is sent, prevents that weaving cloth from leading and send the in-process card between two scissors props pieces 922, and weaving cloth is bounced about can receiving weaving cloth's gravity when leading and send, and weaving cloth can slide fast and derive receiving the elasticity power of slow-pressing piece 241.

Referring to fig. 10, the sliding plate 243 includes an auxiliary wheel b1, a plastic sheet b2, and an arc guide plate b3, three plastic sheets b2 are provided, three plastic sheets b2 are attached to the arc guide plate b3 in an equidistant arc manner, the auxiliary wheel b1 is provided between two plastic sheets b2, the auxiliary wheel b1 is connected to the arc guide plate b3, and the bottom of the arc guide plate b3 is connected to the backing plate 242.

The auxiliary wheel b1 is used for being matched with the plastic sheet b2, textile cloth is in contact with the plastic sheet b2, the surface of the plastic sheet b2 is smooth, friction resistance between the plastic sheet b2 and the plastic sheet b2 is small, the textile cloth can be guided out through the matching of the plastic sheet b2 and the auxiliary wheel b1 quickly, conveying efficiency of the textile cloth is improved, and the textile cloth can be compressed quickly.

The working principle of the above technical solution is explained as follows:

when the textile fabric drying machine is used, a worker turns on a power switch, textile fabric to be printed is conveyed to the conveying table 5 through the guide and conveying roller 4, the textile fabric is leveled and adjusted through the leveling device 9, ink is conveyed to each printing roller 8 on the printing table 6 in an equal amount through the ink storage cavity 7, the printing rollers 8 are driven by the printing table 6 to move to print the textile fabric on the conveying table 5, the textile fabric is heated through the drying machine, hot air generated by heating of the drying machine is dispersed to the conveying table 5 from the air outlet 3 through the fan 2, the printed textile fabric can be dried quickly, the dried textile fabric is wound through the winding roller 10, and the drying effect of the textile fabric is improved.

When textile fabric is printed, textile fabric is guided to the interface 921 through the guide roller 4, the textile fabric is guided to the inside of the housing 923 through the interface 921 and can contact the scissors supporting pieces 922, the scissors supporting pieces 922 are of an X-shaped structure, small-amplitude opening and closing activities can be performed in the housing 923 under the action of the gravity of the textile fabric, the textile fabric is guided on the scissors supporting pieces 922 and can move up and down under the action of the scissors supporting pieces 922, the sliding plate 243 is clamped on the scissors supporting pieces 922 and is effectively matched with the scissors supporting pieces 922 to guide the textile fabric, the textile fabric is prevented from being clamped between the two scissors supporting pieces 922 in the guiding process, the textile fabric is guided to the sliding plate 243 through the scissors supporting pieces 922, the arc guide plate b3 is in a semi-arc shape, the textile fabric is guided to the sliding plate 243 and can rapidly slide down and contact the plastic sheet b2 due to inertia, the plastic sheet b2 is made of polyethylene material and has a smooth surface, make weaving cloth little with the frictional resistance of plastic sheet b2 contact surface, weaving cloth landing leads on arc board b3, slow briquetting 241 has certain elastic action, landing gravity receiving weaving cloth can drive and lead arc board b3 and bounce from top to bottom, it leads the send to carry out the festival with weaving cloth through scissors support piece 922 and the cooperation of leading arc board b3, deflector 925 is semicircular structure, lead the send on leveling subassembly 94 through the weaving cloth that deflector 925 will derive, make weaving cloth can not shift because of the wind-force that equipment removal produced at the stamp in-process, compress tightly weaving cloth and carry out the stamp on the stamp mesa, improve weaving cloth's stamp effect.

When the woven cloth contacts the leveling component 94, the woven cloth can drive the traction rotating wheel 941 to rotate when moving, the flattening part 945 can rotate along with the rotating wheel 941 to convey the woven cloth, the flattening part 945 can contact with the friction pad 942 along with the rotating wheel 941 at the top in the rotating process to generate certain friction resistance, the friction pad 942 is supported through the stability of the triangular plate 943, the friction pad 942 is prevented from being stressed and retracted, the rotating speed of the rotating wheel 941 is effectively controlled, the rotating speeds of the rotating wheels 941 are prevented from being too high, the rotating wheels 941 on the two positioning plates 91 can be moved by the woven cloth to rotate simultaneously, the rotating wheels 941 at two ends of the woven cloth rotate simultaneously, the leveling rod 453 can retract inwards when contacting the woven cloth to exert pressure and convey the woven cloth simultaneously, the silica gel pads a4 on the leveling rod 453 can retract inwards to cling to the woven cloth when being subjected to extrusion force, the leveling rod 453 is supported by the clamping balls a11, the leveling rod 453 is prevented from being pressed to generate force unloading, the runner 941 drives the leveling piece 945 to rotate to output the textile cloth at a constant speed, the leveling rod 453 is subjected to mutual extrusion of the textile cloth and the clamping balls a11 to generate mutual repulsion, the leveling rod 453 rotates to leave the textile cloth along with the runner 941, the bracing piece a12 can drive the clamping balls a11 to drive the leveling rod 453 to rebound and reset quickly, the elastic belt a2 rebounds inwards to drag the silica gel pad a4 upwards after no pressure, so that the silica gel pad a4 can reset quickly, the leveling rod 453 can convey the leveling cloth at a constant speed circularly, the leveling cloth is guaranteed to be uniformly stressed, the textile cloth is prevented from being excessively dragged, the printed textile cloth is protected, after the leveling rod 453 rotates to leave the textile cloth, cotton wool on the textile cloth floats and adheres to the leveling rod 453 due to certain wind force generated by the rotation of the leveling rod 453, the cotton wool scattered on the leveling rod 454 is adsorbed by the adhesive net 454, the cotton wool is adhered by the adhesive felt 452, and is prevented from being accumulated on the leveling rod 453, so that the leveling rod 453 can convey the woven cloth quickly and stably, and printing efficiency of the woven cloth is improved.

In summary, the invention is provided with the leveling device, the textile cloth is guided on the scissors supporting piece and fluctuates up and down along with the movement of the scissors supporting piece, the textile cloth is guided to the sliding plate through the scissors supporting piece, the textile cloth can rapidly slide and contact the plastic sheet due to inertia, the textile cloth is guided in sections through the matching of the scissors supporting piece and the arc guide plate, the guided textile cloth is guided to the leveling component through the guide plate, the textile cloth moves to the leveling component through the scissors supporting piece and drives the traction rotating wheel to rotate, the rotating speed of the rotating wheel is controlled through the matching of the triangular plate and the friction pad, the rotating wheel drives the leveling piece to rotate to output the textile cloth at a constant speed, the leveling rod can generate mutually exclusive extrusion by the thrust of the mutual extrusion of the two strands of textile cloth and the clamping ball, the textile cloth is stably pressed on the conveying table through the leveling rod, and displacement caused by the movement of the equipment can not occur, leveling pole follows the runner and rotates to circulate at the uniform velocity and carry weaving cloth, guarantees that weaving cloth's atress is even, can not drag weaving cloth excessively, protects weaving cloth after the stamp, improves weaving cloth's stamp efficiency.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics 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 (6)

1. The utility model provides a textile fabric calico printing machine, its structure includes drying-machine (1), fan (2), air outlet (3), leads and send roller (4), conveying platform (5), stamp rack (6), stores up ink chamber (7), stamp cylinder (8), evens up device (9), wind-up roll (10), organism (11), drying-machine (1) is linked together with fan (2), air outlet (3) run through in organism (11) bottom, stamp cylinder (8) are connected with conveying platform (5) through stamp rack (6), two store up ink chamber (7) and both are put through mutually at stamp rack (6) top, organism (11) inside both sides all are equipped with evens up device (9) of inlaying mutually with it, organism (11) outside both sides are equipped with respectively and lead and send roller (4) and wind-up roll (10), its characterized in that:

the leveling device (9) comprises a positioning plate (91), a wrinkle removing groove (92), a frame body (93), a leveling component (94) and a material conveying opening (95), wherein the positioning plate (91) is embedded in the frame body (93), the positioning plate (91) is provided with the wrinkle removing groove (92) and the wrinkle removing groove and the wrinkle removing opening (95), the leveling component (94).

2. A textile fabric printing machine as claimed in claim 1, wherein: leveling subassembly (94) is including runner (941), friction pad (942), set-square (943), spacing chamber (944), the piece (945) that flattens, be equipped with the piece (945) that flattens that laminates mutually with it on runner (941), it contacts with friction pad (942) to flatten piece (945), friction pad (942) is installed on set-square (943), spacing chamber (944) is connected with piece (945) that flattens through friction pad (942), spacing chamber (944) is connected with wrinkle chasing groove (92) through locating plate (91), runner (941) are connected with guide roller (4) and wind-up roll (10) through organism (11).

3. A textile fabric printing machine as claimed in claim 2, wherein: flattening piece (945) is including cutting ferrule (451), glue hair felt (452), leveling pole (453), adhesion net (454), be equipped with leveling pole (453) that run through mutually with it on cutting ferrule (451), cutting ferrule (451) is installed towards the one end of leveling pole (453) and is adhered net (454), glue hair felt (452) hugs closely in cutting ferrule (451), cutting ferrule (451) bottom laminating is on runner (941), leveling pole (453) contacts with friction pad (942), cutting ferrule (451) is connected with spacing chamber (944).

4. A textile fabric printing machine as claimed in claim 3, wherein: leveling rod (453) are including support element (a1), elastic band (a2), backplate (a3), silica gel pad (a4), activity depression bar (a5), support element (a1) are installed inside activity depression bar (a5), depression bar (a5) both sides all are equipped with silica gel pad (a4) and both laminate mutually, be equipped with elastic band (a2) on silica gel pad (a4), silica gel pad (a4) top meets with backplate (a3), activity depression bar (a5) is inserted and is inlayed on cutting ferrule (451), backplate (a3) contacts with friction pad (942).

5. A textile fabric printing machine according to claim 4, characterized in that: the supporting element (a1) comprises four clamping balls (a11), a brace (a12) and a clamping plate (a13), the four clamping balls (a11) are arranged, the four clamping balls (a11) are parallelly arranged inside the clamping plate (a13), the four clamping balls (a11) are connected through the brace (a12), one end of the clamping plate (a13) is vertically connected to the brace (a3), and the clamping plate (a13) is arranged inside the movable pressure rod (a 5).

6. A textile fabric printing machine as claimed in claim 1, wherein: remove wrinkle groove (92) including interface (921), scissors piece (922), casing (923), sliding block (924), deflector (925), establish in casing (923) one side interface (921), scissors piece (922) is installed at casing (923) both ends, scissors piece (922) and laminate mutually with sliding block (924), the one end that interface (921) was kept away from in casing (923) installs deflector (925), casing (923) are installed between two locating plates (91), deflector (925) are connected with spacing chamber (944) through locating plate (91).

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