阅读说明：本技术 一种数码印花面料加工设备 (Digital printing fabric processing equipment ) 是由 张芳 应爱萍 于 2021-08-20 设计创作，主要内容包括：本发明公开了一种数码印花面料加工设备,机架;隔板,位于机架内部,将机架内部分为左腔和右腔;通料槽,横穿机架中部;压实机构,位于机架的左腔内;烘干机构,位于机架的右腔内;切割机构,位于机架右侧壁上;所述烘干机构包括风机,固定在右腔顶部；通风板滑槽,设置在右腔的两侧壁上；通风板和电热丝板,通风板和电热丝板连接在一起,且电热丝板位于通风板上方,通风板能够在通风板滑槽内前后滑动；拉手,设于通风板的前壁上；定位组件,配合通风板设置在隔板内；旋转组件,配合定位组件设置在通风板后部。(The invention discloses digital printing fabric processing equipment, which comprises a rack, a partition plate, a material passing groove, a compaction mechanism, a drying mechanism, a cutting mechanism, a fan, a feeding mechanism, a discharging mechanism, a pressing mechanism, a cutting mechanism, a pressing mechanism and a pressing mechanism, wherein the partition plate is positioned inside the rack and divides the inside of the rack into a left cavity and a right cavity; the ventilation plate sliding chutes are arranged on two side walls of the right cavity; the ventilation board and the electric heating wire board are connected together, the electric heating wire board is positioned above the ventilation board, and the ventilation board can slide back and forth in the sliding groove of the ventilation board; the handle is arranged on the front wall of the ventilation board; the positioning assembly is arranged in the partition plate in a matched manner with the ventilating plate; and the rotating assembly is matched with the positioning assembly and arranged at the rear part of the ventilating board.)

1. A digital printing fabric processing device is characterized by comprising

A frame (1);

the partition plate (2) is positioned inside the rack (1) and divides the inside of the rack (1) into a left cavity (10) and a right cavity (11);

the material passing groove (16) transversely penetrates through the middle part of the rack (1);

the compaction mechanism is positioned in a left cavity (10) of the frame (1);

the drying mechanism is positioned in the right cavity (11) of the rack (1);

the cutting mechanism is positioned on the right side wall of the rack (1);

the drying mechanism comprises

The fan (3) is fixed at the top of the right cavity (11);

the ventilating plate sliding grooves (12) are arranged on two side walls of the right cavity (11);

the ventilating plate (30) and the electric heating wire plate (31) are connected together, the electric heating wire plate (31) is positioned above the ventilating plate (30), and the ventilating plate (30) can slide back and forth in the ventilating plate sliding groove (12);

a handle (32) provided on the front wall of the ventilation board (30);

the positioning assembly is arranged in the partition plate (2) in a matched manner with the ventilating plate (30);

the rotating assembly is matched with the positioning assembly and arranged at the rear part of the ventilating plate (30).

2. The digital printing fabric processing equipment according to claim 1, characterized in that: the positioning component comprises

The positioning sliding chute (13) is arranged at the upper end of the ventilating plate sliding chute (12);

the positioning block (33) can be slidably arranged in the positioning chute (13);

the positioning groove (34) is arranged on the ventilation plate (30) corresponding to the positioning block (33);

the pushing component is arranged above the positioning sliding groove (13) in a matched manner with the positioning block (33).

3. The digital printing fabric processing equipment according to claim 2, characterized in that: the pushing component comprises

A push rod (35) positioned on the top surface of the positioning block (33);

the connecting rod (36) is used for connecting the push rods (35) at the two sides together through the connecting rod (36);

the arc-shaped block (37) is arranged at the bottom end of the middle position of the connecting rod (36) and is arranged above the handle (32);

the positioning spring (38) is sleeved on the push rod (35) and positioned between the positioning block (33) and the positioning sliding groove (13);

and the push rod sliding groove (14) is arranged above the positioning sliding groove (13), and the push rod can slide in the push rod sliding groove (14).

4. The digital printing fabric processing equipment according to claim 2, characterized in that: the bottom of the positioning block (33) is provided with a first inclined plane (39).

5. The digital printing fabric processing equipment according to claim 4, characterized in that: the rotating assembly comprises

The sliding rod sliding grooves (4) are positioned on two sides of the rear end of the ventilating plate (30);

the sliding rod (41) is slidably mounted on the sliding rod sliding groove (4), and a flanging (42) is arranged at the top end of the sliding rod (41).

6. The digital printing fabric processing equipment according to claim 1, characterized in that: the compacting mechanism comprises

The first motor (5) is arranged on the rear wall of the rack (1);

the first compression roller assembly is fixedly connected with the rotating end of the first motor (5);

the cleaning assembly is arranged on the rack (1) in a matching way with the first compression roller assembly;

the first gear (50) is arranged on the first press roll assembly in a matching mode;

the second press roller (51) is rotatably arranged in the left cavity (10) and below the first press roller assembly;

and the second gear (52) is fixedly connected with the second pressing roller (51) and is meshed with the first gear (50).

7. The digital printing fabric processing equipment according to claim 6, characterized in that: the first press roll component comprises

The first pressure roller (53) is fixedly connected with the rotating end of the first motor (5) and can rotate in the left cavity (10);

a first spring (54) which is uniformly and circumferentially arranged on the outer wall of the first pressing roller (53);

a support plate (55) provided at an end of the first spring (54);

a sleeve (56) sleeved outside the support plate (55);

the cleaning assembly comprises

The arc-shaped plate (6) is arranged in the left cavity (10), and a thread groove (64) is distributed on one side close to the sleeve (56);

the cleaning plate (60) is sleeved on the sleeve (56) and attached to the surface of the sleeve (56), and a first thread (61) is arranged on the outer surface of the cleaning plate and matched with a thread groove (64) on the arc-shaped plate (6);

the driving component is matched with the cleaning plate (60) and arranged on the frame (1).

8. The digital printing fabric processing equipment according to claim 7, characterized in that: the drive part comprises

The pull rod (7) is slidably arranged on the rack (1);

the pull rod sliding groove (62) is arranged on the cleaning plate (60), and the end part of the pull rod (7) can slide in the pull rod sliding groove (62);

the limiting block (70) is arranged on the front wall of the rack (1);

a limit plate (71) which is rotatably arranged at the end part of the pull rod (7), and a handle (72) is arranged in the middle of the front wall;

the second spring (73) is positioned between the limiting plate (71) and the rack (1);

the clamping groove (74) is matched with the limiting block (70) and arranged on the front wall of the limiting plate (71);

and a through groove (75) arranged on the limit plate (71).

9. The digital printing fabric processing equipment according to claim 1, characterized in that: the cutting mechanism comprises

The frame body (8) consists of two transverse plates (80) and two vertical plates (81);

the second motor (82) is fixedly arranged on the rear vertical plate (81);

the screw rod (83) is connected with the rotating end of the second motor (82) and can rotate on the two vertical plates (81);

the sliding block (9), the sliding block (9) is provided with a second thread (901), and the second thread (901) is matched with the screw rod (83);

the baffle plates (74) are arranged on the left side and the right side of the sliding block (9) and are connected with the two vertical plates (81);

the electric push rod (90) is arranged at the bottom of the sliding block (9);

a contact plate (91) connected to the electric push rod (90);

the cutter (92) is positioned in the middle of the bottom of the contact plate (91);

a cutter groove (84) which is arranged on the transverse plate (80) below corresponding to the cutter (92);

the anti-wrinkling component is arranged on two vertical plates (81) in a matching way with the contact plate (91).

10. The digital printing fabric processing equipment according to claim 9, characterized in that: the wrinkle-resistant component comprises

The rotating shaft sliding grooves (93) are arranged on the opposite surfaces of the two vertical plates (81);

the two ends of the rotating shaft (94) are rectangular, the middle of the rotating shaft is circular, and the two ends of the rotating shaft can be slidably arranged in the rotating shaft sliding grooves (93);

the extrusion plate (95) is rotatably arranged on the rotating shaft (94);

two cylinders (96) embedded at the bottom of the extrusion plate (95);

the two circular sheets (97) are fixed on the rotating shaft (94) and tightly attached to the two vertical plates (84);

a torsion spring (98) located between the disc (97) and the squeeze plate (95);

and the rotating shaft spring (99) is positioned between the rotating shaft (94) and the rotating shaft sliding groove (93).

Technical Field

The invention belongs to the technical field of fabric processing, and particularly relates to digital printing fabric processing equipment.

Background

Digital printing is printing by digital technology. The digital printing technology is a high and new technology product which integrates the mechanical and computer electronic information technology and is gradually formed along with the continuous development of the computer technology, the appearance and continuous perfection of the technology bring a brand new concept to the textile printing and dyeing industry, and the advanced production principle and means of the technology bring an unprecedented development opportunity to the textile printing and dyeing.

When the cloth is printed, because the ink-jet type of the technology is more, after the cloth is printed, ink needs time to dry on the cloth, but the cloth cannot be well dried by the existing printing equipment after the printing, and printed patterns are often damaged.

Disclosure of Invention

The invention provides digital printing fabric processing equipment for overcoming the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a digital printing fabric processing device comprises

A frame;

the partition plate is positioned in the rack and divides the interior of the rack into a left cavity and a right cavity;

the material passing groove transversely penetrates through the middle part of the rack;

the compaction mechanism is positioned in a left cavity of the frame;

the drying mechanism is positioned in the right cavity of the rack;

the cutting mechanism is positioned on the right side wall of the rack;

the drying mechanism comprises

The fan is fixed at the top of the right cavity;

the ventilation plate sliding chutes are arranged on two side walls of the right cavity;

the ventilation board and the electric heating wire board are connected together, the electric heating wire board is positioned above the ventilation board, and the ventilation board can slide back and forth in the sliding groove of the ventilation board;

the handle is arranged on the front wall of the ventilation board;

the positioning assembly is arranged in the partition plate in a matched manner with the ventilating plate;

the rotating assembly is matched with the positioning assembly and arranged at the rear part of the ventilating plate;

the compaction mechanism is arranged in the left cavity, the drying mechanism is arranged in the right cavity, the fan can diffuse air heated by the electric heating wire plate and uniformly blow the air to the fabric through the holes in the ventilation plate, so that the drying effect is improved, the electric heating wire can be isolated from the fabric by the ventilation plate, and the fabric, printed patterns and cloth are prevented from being damaged by the electric heating wire plate; when the electric heating wire plate needs to be maintained, the pull handle is pulled by matching with the pushing component, and the ventilation plate slides in the sliding groove of the ventilation plate to pull out the ventilation plate and the electric heating wire plate.

Further, the positioning assembly comprises

The positioning sliding chute is arranged at the upper end of the ventilating plate sliding chute;

the positioning block can be slidably arranged in the positioning chute;

the positioning groove is arranged on the ventilating plate corresponding to the positioning block;

the pushing component is arranged above the positioning sliding chute in a matching manner with the positioning block;

the locating piece cooperates with the constant head tank, can restrict the position of ventilating board, prevents that the ventilating board from taking place to remove at equipment during operation.

Further, the pushing member includes

The push rod is positioned on the top surface of the positioning block;

the connecting rods are used for connecting the push rods on the two sides together;

the arc-shaped block is arranged at the bottom end of the middle position of the connecting rod and is arranged above the handle;

the positioning spring is sleeved on the push rod and positioned between the positioning block and the positioning sliding chute;

the push rod sliding groove is arranged above the positioning sliding groove, and the push rod can slide in the push rod sliding groove;

when a worker inserts a hand into a gap between the arc-shaped block and the handle to hold the handle, the arc-shaped block is extruded by the hand of the worker and can drive the connecting rod to move upwards, so that the push rod drives the positioning block to move upwards, the positioning block moves out of the positioning groove, the handle can be pulled forwards to pull out the ventilation plate, and when the hand of the worker is not in contact with the arc-shaped plate, the positioning block is always in contact with the upper top surface of the ventilation plate through the elasticity of the positioning spring.

Further, a first inclined plane is arranged at the bottom of the positioning block; when the ventilation plate is pushed inwards, the first inclined surface of the positioning block is matched with the tail end of the ventilation plate, so that the positioning block is extruded upwards.

Further, the rotating assembly comprises

The sliding rod sliding chutes are positioned on two sides of the rear end of the ventilating plate;

the sliding rod can be slidably arranged on the sliding groove of the sliding rod, and the top end of the sliding rod is provided with a flanging;

the slide bar and the locating piece contact of pulling ventilating board to the ventilating board afterbody, positioning spring extrudees the locating piece downwards, move to the locating piece at last and continue the pulling with the turn-ups contact, the slide bar position is unchangeable, the ventilating board passes through the slide bar spout at rear portion and the cooperation of slide bar, make the back border and the slide bar contact back of slide bar spout, the ventilating board alright down-rotation, maintenance personal alright maintain the electric heating wire board, need not to pull down the electric heating wire board, save installation time has guaranteed the clean degree of ventilating board and electric heating wire board again.

Further, the compacting mechanism comprises

The first motor is arranged on the rear wall of the rack;

the first compression roller assembly is fixedly connected with the rotating end of the first motor;

the cleaning assembly is arranged on the rack in a manner of being matched with the first compression roller assembly;

the first gear is arranged on the first compression roller assembly in a matching manner;

the second compression roller is rotatably arranged in the left cavity and below the first compression roller assembly;

and the second gear is fixedly connected with the second pressing roller and is meshed with the first gear.

Further, the first press roll assembly comprises

The first compression roller is fixedly connected with the rotating end of the first motor and can rotate in the left cavity;

the first spring is uniformly and circumferentially arranged on the outer wall of the first pressing roller;

a support plate disposed at an end of the first spring;

the sleeve is sleeved outside the support plate;

the cleaning assembly comprises

The arc-shaped plate is arranged in the left cavity, and a thread groove is distributed on one side close to the sleeve;

the cleaning plate is sleeved on the sleeve and attached to the surface of the sleeve, and a first thread is arranged on the outer surface of the cleaning plate and matched with the thread groove on the arc-shaped plate;

the driving component is matched with the cleaning plate and arranged on the rack;

when no fabric exists between the first pressing roller and the second pressing roller, the sleeve is in contact with the second pressing roller; when the fabric is arranged between the first press roller and the second press roller, the support plate can move inwards by extruding the fabric and the printing on the sleeve, the first spring is extruded, and the fabric and the printing between the sleeve and the second press roller can be compacted by the resilience force of the first spring; the printing can also be detected through the sleeve, and if the printing with poor adhesion is adhered to the outer wall of the sleeve through the adhesion of the rubber material of the sleeve.

Through the thread groove on the arc and the first screw-thread fit in the clearance board outside, can rotate in the clearance board motion, can scrape the impurity of adhesion on the sleeve pipe and unqualified stamp and remove, collect through clearance board front end third inclined plane outlying drum, clear up through the arc.

Further, the driving part comprises

The pull rod is slidably arranged on the rack;

the pull rod sliding groove is formed in the cleaning plate, and the end part of the pull rod can slide in the pull rod sliding groove;

the limiting block is arranged on the front wall of the rack;

the limiting plate is rotatably arranged at the end part of the pull rod, and a handle is arranged in the middle of the front wall;

the second spring is positioned between the limiting plate and the rack;

the clamping groove is matched with the limiting block and is arranged on the front wall of the limiting plate;

the through groove is arranged on the limiting plate;

the pull rod is matched with the pull rod sliding groove of the cleaning plate, and can drive the cleaning plate to move forwards; the limiting block can be embedded in the clamping groove on the limiting plate and can also pass through the through groove; through the effort of second spring, make the stopper inlay all the time in the draw-in groove, inwards promote the handle, alright with the stopper roll-off, when rotatory to coincide with logical groove front and back, alright remove the restriction of stopper to the limiting plate, alright stimulate the pull rod.

Further, the cutting mechanism comprises

The frame body consists of two transverse plates and two vertical plates;

the second motor is fixedly arranged on the rear vertical plate;

the screw rod is connected with the rotating end of the second motor and can rotate on the two vertical plates;

the sliding block is provided with a second thread which is matched with the screw rod;

the baffle plates are arranged on the left side and the right side of the sliding block and are connected with the two vertical plates;

the electric push rod is arranged at the bottom of the sliding block;

the contact plate is connected with the electric push rod;

the cutter is positioned in the middle of the bottom of the contact plate;

the cutter groove is arranged on the transverse plate below the cutter groove corresponding to the cutter;

the crease-resistant component is arranged on the two vertical plates in a matching manner with the contact plate.

Further, the wrinkle-resistant assembly comprises

The rotating shaft sliding chutes are arranged on the opposite surfaces of the two vertical plates;

the two ends of the rotating shaft are rectangular, the middle of the rotating shaft is circular, and the two ends of the rotating shaft can be slidably arranged in the sliding grooves of the rotating shaft;

the extrusion plate is rotatably arranged on the rotating shaft;

two cylinders embedded at the bottom of the extrusion plate;

the two circular sheets are fixed on the rotating shaft and tightly attached to the two vertical plates;

the torsion spring is positioned between the wafer and the extrusion plate;

the rotating shaft spring is positioned between the rotating shaft and the rotating shaft sliding groove;

when the movable end of the electric push rod moves downwards, the contact plate is contacted with the extrusion plates and continues to move downwards, the extrusion plates drive the rotating shaft to slide downwards in the rotating shaft sliding groove, after the bottom ends of the extrusion plates are contacted with the fabric, the top of the extrusion plates which continue to be extruded vertically move, the bottoms of the two extrusion plates are in a shape like Chinese character 'ba' on two sides, the fabric can be leveled, and the bottoms of the extrusion plates can be prevented from being directly contacted with the fabric printing and damaging the printing by arranging the cylinders below the extrusion plates; when the electric push rod lifts the contact plate upwards, the rotating shaft and the extrusion plate on the rotating shaft are lifted to the initial position through the force of the rotating shaft spring.

In conclusion, the arrangement of the compaction mechanism in the left cavity in the rack can fix the printing on the cloth, so that the printing is tightly attached to the fabric, and the printing quality is ensured; the fan in the drying mechanism in the right cavity of the rack can diffuse air heated by the electric heating wire plate, and the air is uniformly blown to the fabric through the holes in the ventilation plate, so that the drying effect is improved, the electric heating wire can be isolated from the fabric by the ventilation plate, and the fabric, printed patterns and cloth are prevented from being damaged by the electric heating wire; the surface fabric that the stripper plate can cut needs in the cutting mechanism is in the leveling condition, through the setting of the cylinder of stripper plate below, can prevent that the stripper plate bottom is direct to be contacted with the surface fabric stamp, destroys the stamp.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a sectional view taken at a-a of fig. 1.

Fig. 3 is an enlarged view of fig. 2 at B.

Fig. 4 is an enlarged view of fig. 2 at C.

Fig. 5 is a cross-sectional view taken at D-D of fig. 1.

Fig. 6 is an enlarged view of fig. 5 at E.

Fig. 7 is a cross-sectional view at F-F of fig. 1.

Fig. 8 is an enlarged view of fig. 7 at P.

Fig. 9 is a schematic view of the internal structure of the present invention.

Fig. 10 is an enlarged view at G of fig. 9.

Fig. 11 is an enlarged view of fig. 9 at H.

Detailed Description

As shown in fig. 1-11, the digital printing fabric processing equipment comprises a rack 1, a partition plate 2, a left cavity 10, a right cavity 11, a material passing groove 16, a compacting mechanism, a drying mechanism and a cutting mechanism, wherein the partition plate 2 is positioned inside the rack 1 and divides the inside of the rack 1 into the left cavity 10 and the right cavity 11, and the material passing groove 16 penetrates through the middle of the rack 1 and is a fabric movement interval.

Specifically, the drying mechanism comprises a fan 3, a ventilation board chute 12, a ventilation board 30, an electric heating wire board 31, a handle 32, a positioning assembly and a rotating assembly; the fan 3 is fixed at the top of the right cavity 11; the ventilation board chutes 12 are arranged on two side walls of the right cavity 11; a plurality of holes are uniformly distributed on the ventilation plate 30, the ventilation plate 30 is connected with the electric heating wire plate 31, the electric heating wire plate 31 is positioned above the ventilation plate 30, and the ventilation plate 30 can slide back and forth in the ventilation plate sliding groove 12; the handle 32 is arranged on the front wall of the ventilation board 30; the positioning assembly comprises a positioning chute 13, a positioning block 33, a positioning groove 34 and a pushing component; the positioning chute 13 is arranged at the upper end of the ventilation board chute 12; the positioning block 33 can be slidably arranged in the positioning chute 13, and the bottom of the positioning block 33 is provided with a first inclined surface 39; the positioning groove 34 is arranged on the ventilation board 30 corresponding to the positioning block 33; the pushing component comprises a push rod 35, a connecting rod 36, an arc block 37, a positioning spring 38 and a push rod chute 14; the push rod 35 is positioned on the top surface of the positioning block 33; the push rods 35 at the two sides are connected together through a connecting rod 36, an arc-shaped block 37 is fixed at the bottom end of the middle position of the connecting rod 36, and the arc-shaped block 37 is arranged above the handle 32; the positioning spring 38 is sleeved on the push rod 35 and positioned between the positioning block 33 and the positioning chute 13; the push rod sliding groove 14 is arranged above the positioning sliding groove 13, and the push rod can slide in the push rod sliding groove 14; the rotating assembly comprises a sliding rod chute 4, a sliding rod 41 and a flanging 42; the slide bar sliding grooves 4 are positioned at two sides of the rear end of the ventilating plate 30; the sliding rod 41 is slidably mounted on the sliding rod chute 4, and the top end of the sliding rod 41 is provided with a flange 42.

Specifically, the compacting mechanism comprises a first motor 5, a first press roller assembly, a cleaning assembly, a first gear 50, a second press roller 51 and a second gear 52; the first motor 5 is arranged on the rear wall of the frame 1; the first pressing roller assembly comprises a first pressing roller 53, a first spring 54, a supporting plate 55 and a sleeve 56; the first pressure roller 53 is fixedly connected with the rotating end of the first motor 5 and can rotate in the left cavity 10; the first spring 54 is uniformly and circumferentially arranged on the outer wall of the first pressing roller 53; the supporting plates 55 are arranged at the ends of the first springs 54, and the supporting plates 55 are connected by cloth strips; the sleeve 56 is made of rubber and is sleeved on the outer side of the supporting plate 55, the rear end of the sleeve 56 is fixedly connected with the first pressing roller 53 in an undeformable manner, the front end of the sleeve is matched with the supporting plate 55, and a second inclined surface 57 is arranged at the position where the front end is connected with the rear end; the first gear 50 is connected between the first motor 5 and the first pressing roller 53; the second press roller 51 is rotatably arranged in the left cavity 10, and the second gear 52 is fixedly connected with the second press roller 51 and meshed with the first gear 50; the cleaning assembly comprises an arc-shaped plate 6, a thread groove 64, a cleaning plate 60, a first thread 61 and a driving part; the arc-shaped plate 6 is arranged in the left cavity 10, is positioned at the left upper part of the sleeve 56, and is provided with a thread groove 64 at one side close to the sleeve 56; the cleaning plate 60 is not deformable, is sleeved at the position fixedly connected with the first pressing roller 53 at the rear side of the sleeve 56 and is attached to the surface of the sleeve 56, first threads 61 are arranged on the outer surface of the cleaning plate, a third inclined surface 63 is arranged at the front end of the cleaning plate, a cylinder is arranged on the outer ring of the third inclined surface 63 and can collect impurities scraped off by the third inclined surface 63, and an arc-shaped groove 15 matched with a thread groove 64 on the arc-shaped plate 6 is arranged on the front wall of the left cavity 10; the driving part comprises a pull rod 7, a pull rod sliding groove 62, a limiting block 70, a limiting plate 71, a handle 72, a second spring 73, a clamping groove 74 and a through groove 75; the pull rod 7 is slidably arranged on the frame 1; the pull rod sliding groove 62 is an annular groove and is arranged at the rear end of the cleaning plate 60, and the end part of the pull rod 7 can slide in the pull rod sliding groove 62; the limiting block 70 is arranged on the front wall of the frame 1; the limit plate 71 can rotate and can also move back and forth and is arranged at the end part of the pull rod 7, and the middle position of the front wall is provided with a handle 72; the second spring 73 is positioned between the limit plate 71 and the frame 1; the clamping groove 74 is arranged on the front wall of the limiting plate 71 in cooperation with the limiting block 70; the through groove 75 is provided on the stopper plate 71.

Specifically, the cutting mechanism comprises a frame body 8, a transverse plate 80, a vertical plate 81, a second motor 82, a screw 83, a slider 9, a second thread 901, a baffle 74, an electric push rod 90, a contact plate 91, a cutter 92, a cutter groove 84 and a crease-resist component; the frame body 8 is composed of two transverse plates 80 and two vertical plates 81; the second motor 82 is fixedly arranged on the rear vertical plate 81; the screw 83 is connected with the rotating end of the second motor 82 and can rotate on the two vertical plates 81; a second thread 901 is arranged on the sliding block 9, and the second thread 901 is matched with the screw 83; the baffle plates 74 are arranged on the left side and the right side of the sliding block 9 and are connected with the two vertical plates 81; the electric push rod 90 is arranged at the bottom of the slide block 9; the contact plate 91 is connected with the electric push rod 90; the cutter 92 is positioned at the middle position of the bottom of the contact plate 91; the cutter groove 84 is arranged on the transverse plate 80 below corresponding to the cutter 92; the anti-crease component comprises a rotating shaft sliding groove 93, a rotating shaft 94, an extrusion plate 95, a cylinder 96, a wafer 97, a torsion spring 98 and a rotating shaft spring 99; the rotating shaft sliding grooves 93 are formed in the opposite surfaces of the two vertical plates 81; the two ends of the rotating shaft 94 are rectangular, the middle is circular, and the two ends can be slidably arranged in the rotating shaft sliding grooves 93; the extrusion plate 95 is rotatably mounted on the rotating shaft 94; two cylinders 96 are embedded at the bottom of the extrusion plate 95; two wafers 97 are fixed on the rotating shaft 94, and the side edges of the wafers 97 are provided with blocking pieces for limiting the initial position of the extrusion plate 95 and clinging to the walls of the two vertical plates 84; the torsion spring 98 is located between the disc 97 and the squeeze plate 95; the shaft spring 99 is located between the shaft 94 and the shaft slide 93.

The working principle is as follows: the fabric enters the frame 1 through the material passing groove 16, firstly passes through the left cavity 10, the first motor 5 drives the first pressing roller 53 to rotate, the first gear 50 is meshed with the second gear 52, so that the second pressing roller 51 rotates, the supporting plate 55 can move inwards through the extrusion of the fabric and the printing on the sleeve 56, the first spring 54 is extruded, and the fabric and the printing between the sleeve 56 and the second pressing roller 51 can be compacted through the resilience force of the first spring 54; the printing can also be detected through the sleeve 56, if the printing which is not firmly adhered is adhered to the outer wall of the sleeve 56 through the adhesion of the rubber material of the sleeve 56; by the stamp of compaction remove to right side chamber 11 in, can spread the air of electric heating wire board 31 heating through fan 3, evenly blow the surface fabric through the hole on the ventilating board 30 on, dry the surface fabric, the receiving agencies of the good surface fabric of drying through side collects.

The electric push rod 90 moves downwards, the contact plate 91 is in contact with the extrusion plates 95 and continues to move downwards, the extrusion plates 95 drive the rotating shaft 94 to slide downwards in the rotating shaft sliding grooves 93, when the bottom ends of the extrusion plates 95 are in contact with the fabric, the tops of the extrusion plates 95 which are extruded continuously move vertically, the bottoms of the two extrusion plates 95 are in a splayed shape like the two sides, the fabric can be leveled, and the bottoms of the extrusion plates 95 can be prevented from being in direct contact with the fabric printing and damaging the printing through the arrangement of the cylinders 96 below the extrusion plates 95; the second motor 82 is started to drive the screw 83 to rotate, the position of the sliding block 9 can be limited through the arrangement of the baffle 74, and the sliding block 9 can move forwards through the matching of the second threads 901 and the screw 83 to cut the fabric.

When the electric heating wire plate 31 needs to be maintained, a maintenance worker inserts a hand into a gap between the arc-shaped block 37 and the handle 32 and holds the handle 32, the arc-shaped block 37 is squeezed by the hand of the user to drive the connecting rod 36 to move upwards, so that the push rod 35 drives the positioning block 33 to move upwards, the positioning block 33 moves out of the positioning groove 34, the handle 32 can be pulled forwards to pull out the ventilation plate 30, and when the hand of the user does not contact with the arc-shaped block 37, the positioning block 33 is always contacted with the upper top surface of the ventilation plate 30 through the elasticity of the positioning spring 38; when the slide rod 41 at the tail of the ventilation board 30 is in contact with the positioning block 33, the positioning spring 38 extrudes the positioning block 33 downwards, the ventilation board 30 moves to the position where the positioning block 33 is in contact with the flange 42 and is pulled continuously, the position of the slide rod 41 is unchanged, the ventilation board 30 is matched with the slide rod 41 through the slide rod chute 4 at the rear part, and after the rear boundary of the slide rod chute 4 is in contact with the slide rod 41, the ventilation board 30 can rotate downwards, so that a maintenance worker can maintain the electric heating wire board 31 without detaching the electric heating wire board 31, the installation time is saved, and the cleanness degree of the ventilation board 30 and the electric heating wire board 31 is ensured.

When the sleeve 56 needs to be cleaned, the handle 72 is pushed inwards, the limiting block 70 can slide out, when the limiting block 70 is rotated to be overlapped with the through groove 75 in the front-back direction, the limiting block 70 can be relieved by pulling outwards, the limiting block 71 is limited by pulling the pull rod 7, the cleaning plate 60 is driven to move forwards, the limiting block is matched with the first threads 61 on the outer side of the cleaning plate 60 through the thread groove 64 on the arc-shaped plate 6, the limiting block can rotate while the cleaning plate 60 moves, the third inclined surface 63 and the second inclined surface 57 can move to the deformable sleeve 56 part in a matched mode, impurities and unqualified printing adhered to the sleeve 56 are scraped, the impurities and unqualified printing are collected through the cylinder on the periphery of the third inclined surface 63 at the front end of the cleaning plate 63, and the cleaning is carried out through the arc-shaped groove 15.