CN114643787B

CN114643787B - Digital ink-jet textile printing machine

Info

Publication number: CN114643787B
Application number: CN202210285064.5A
Authority: CN
Inventors: 安红斌
Original assignee: Nanjing Baihuan Digital Technology Co ltd
Current assignee: Nanjing Baihuan Digital Technology Co ltd
Priority date: 2022-03-22
Filing date: 2022-03-22
Publication date: 2023-07-14
Anticipated expiration: 2042-03-22
Also published as: CN114643787A

Abstract

The invention relates to the technical field of printing machines, in particular to a digital ink-jet textile printing machine, which comprises an equipment box, wherein the upper surface of the equipment box is fixedly connected with a top cover for installing an ink-jet head, the lower parts of two parallel side surfaces of the top cover are respectively provided with an inlet and an outlet for penetrating cloth, the upper parts of the inner sides of the two inlet and the outlet are respectively provided with a support plate arranged along the length direction of the inlet and the outlet, the lower surface of each support plate is symmetrically provided with two servo motors, the outer surfaces of the servo motors are provided with hanging plates, the hanging plates are connected with the support plates through connecting pieces, the output end of each servo motor is provided with a transmission shaft, one end of each transmission shaft, which is far away from each servo motor, is fixedly connected with a driving wheel for driving the cloth to move, and a plurality of expanding pieces for expanding the edges of the cloth are annularly and equidistantly arranged on the driving wheel, and the digital ink-jet textile printing machine has the following advantages: the cloth and the driving wheel slide relatively, so that the cloth in a folded state is straightened.

Description

Digital ink-jet textile printing machine

Technical Field

The invention relates to a digital ink-jet textile printing machine, and belongs to the technical field of printing machines.

Background

The digital ink-jet printing machine is a type of large-format printer, and is mainly characterized in that a picture scanner arranged above a machine body is used for identifying pattern patterns, and then the pattern patterns are transferred to cloth through an ink-jet printing head. At present, in order to conveniently limit the position of a cloth in a digital ink-jet printing machine, a motor is often utilized to drive a driving wheel to press and hold the edge part of the cloth, but the folded cloth still is in a folded state after entering the digital ink-jet printing machine, so that the pattern printed on the cloth is deformed, and the ink-jet printing effect is seriously affected.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a digital ink-jet textile printing machine so as to solve the problems in the background art.

In order to achieve the above object, the present invention is realized by the following technical scheme: the utility model provides a digital inkjet textile printing machine, includes the equipment box, equipment box upper surface fixedly connected with is used for installing the top cap of inkjet head, the import and export that is used for alternate cloth is all offered to two parallel side lower part positions of top cap, import and export along the length direction of top cap arranges, two the inboard upper position of import and export all is equipped with the backup pad that arranges along import and export length direction, the tip of backup pad is fixed on the top cap inner wall, two servo motor is installed to backup pad lower surface symmetry, servo motor surface mounting has the hanger plate, the hanger plate is connected with the backup pad through the connecting piece, servo motor's output is arranged in opposite directions, the transmission shaft is installed to the servo motor output, the one end fixedly connected with that the servo motor was kept away from to the transmission shaft is used for driving the drive wheel that the cloth removed, be annular equidistance and install a plurality of expansion pieces that are used for making cloth edge expansion on the drive wheel.

Specifically, expand and prop the piece and include the ejector pin, the drive wheel is the annular equidistance towards servo motor's one side edge and has offered the guiding hole that the slope was arranged, the drive wheel deviates from servo motor's one side and is the annular equidistance and has offered a plurality of slopes to arrange and with the guiding hole one-to-one and communicating square hole, install in the guiding hole and be used for promoting the ejector pin that cloth edge was expanded to both sides, the ejector pin other end runs through square hole and extends to the square hole outside, the one end fixedly connected with permanent magnet that servo motor was kept away from to the ejector pin, one side that the permanent magnet deviates from the ejector pin is equipped with the electro-magnet that can repel with the permanent magnet, the electro-magnet passes through connecting rod and hanger plate fixed connection, the connecting rod is L type structure, the cover is equipped with the spring on the ejector pin, the spring sets up in square hole, one side that the spring deviates from the guiding hole is equipped with the square plate that is used for restricting spring end position, square plate cover is established on the ejector pin and with ejector pin fixed connection, square plate and square hole inner wall sliding contact.

Specifically, the connecting piece includes the slide, the bar groove has been seted up to backup pad upper surface, the bar groove is arranged along the length direction of backup pad, hanger plate upper end runs through bar groove and fixedly connected with slide, slide slidable mounting is in the backup pad upper surface, slide upper surface one side edge fixedly connected with riser, riser one side installs the electric putter expansion end, electric putter cylinder body end is fixed at the backup pad upper surface.

Specifically, two bull's eye beads are installed to both sides that are in the bar groove of slide lower surface, the ball position of bull's eye bead and backup pad rolling contact.

Specifically, the one end fixedly connected with carrier plate that the hanger plate was kept away from to the connecting rod, the one side at the carrier plate face permanent magnet is installed to the electro-magnet, the one end fixedly connected with carrier plate that the ejector pin is close to the electro-magnet, the permanent magnet is fixed in the one end that the carrier plate deviates from the ejector pin.

Specifically, the one end fixedly connected with that the ejector pin kept away from the year dish is with the stripper plate of equipment box upper surface parallel arrangement, the one end that the ejector pin is close to the stripper plate is processed and is had stripper plate surface matched with inclined plane.

Specifically, two vertically arranged round holes are symmetrically formed in the upper surface of the supporting plate, a vertically arranged screw rod is inserted into each round hole, fixing lugs are fixedly installed at two ends of each screw rod, fixing holes for inserting screws are formed in one side face of each fixing lug, two nuts are connected to the screw rod in a threaded mode, and the two nuts are respectively arranged on the upper side and the lower side of the supporting plate.

Specifically, blind holes are formed in the positions, where the fixing lugs are used for installing the screw rods, of the screw rods, and the end portions of the screw rods are fixed in the blind holes.

Specifically, the outer surface of the driving wheel is wrapped with a rubber sleeve, the rubber sleeve is adhered to the driving wheel through glue, anti-skid patterns in a protruding state are processed on the outer surface of the rubber sleeve, and the anti-skid patterns and the rubber sleeve are of an integrated structure.

The invention has the beneficial effects that:

1. according to the digital ink-jet textile printing machine, the servo motor is utilized to drive the driving wheel to rotate, the edge of cloth is positioned between the driving wheel and the upper surface of the equipment box, further, the cloth is prevented from being wrinkled under the pressure of the driving wheel, when the cloth entering the top cover is in a wrinkled state, the driving wheel drives the ejector rod to rotate in the rotating process, when the permanent magnet on one end of the ejector rod rotates to be aligned with the electromagnet, the electromagnet is electrified to generate magnetism which is repulsive to the permanent magnet, under the repulsive force of the permanent magnet and the electromagnet, the ejector rod slides along the guide hole towards the servo motor, the lower end of the ejector rod is enabled to prop against the edge of the cloth, the edge of the cloth is enabled to spread towards two sides, relative sliding is generated between the cloth and the driving wheel, the cloth in the wrinkled state is enabled to be straightened, the ejector rod drives the square plate to slide in the square hole, at the moment, the spring is in a compressed state, the ejector rod is enabled to reset under the resilience force of the spring, and the aim of alternately expanding the edge of the cloth is achieved by installing a plurality of ejector rods on the driving wheel.

2. According to the digital ink-jet textile printing machine, the electric push rod is controlled to extend or retract according to the width of cloth, the electric push rod drives the sliding plate to slide along the surface of the supporting plate, the sliding plate drives the servo motor to move through the hanging plate, meanwhile, the hanging plate drives the electromagnet to move through the connecting rod, the relative position between the electromagnet and the driving wheels is kept unchanged, after the distance between the two driving wheels meets the width requirement of the cloth, the circuit of the electric push rod is disconnected, finally, the distance between the two corresponding driving wheels is adjusted, the cloth with different width dimensions is met, and the application range is enlarged.

3. According to the digital ink-jet textile printing machine, the fixing lugs at the two ends of the screw are fixed on the inner wall of the top cover by the screws, the screw is in a vertical state, the height of the supporting plate is adjusted along the screw according to the thickness of cloth, at the moment, the supporting plate drives the servo motor to move upwards or downwards, the distance between the driving wheel and the upper surface of the equipment box is increased or reduced until the distance between the driving wheel and the equipment box meets the thickness requirement of the cloth, then the two nuts on the screw are screwed, the two nuts on the screw are in tight contact with the supporting plate, the fixing of the position of the supporting plate is completed, namely the position of the driving wheel is limited, the requirement of cloth with different thickness is met, and in the same way, the position of the screw is adjusted along the round hole in the supporting plate under the condition that the height of the supporting plate is limited, the screw drives the fixing lug to move, and the fixing hole in the fixing lug is staggered with the area on the top cover, where the screw cannot be installed.

Drawings

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

FIG. 1 is a schematic diagram of a digital ink jet textile printing machine according to the present invention;

FIG. 2 is a schematic diagram showing the assembly of a drive wheel, a servo motor and a support plate in a digital ink jet textile printing machine according to the present invention;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is an enlarged view at B in FIG. 2;

FIG. 5 is a cross-sectional view of a drive wheel in a digital ink jet textile printing machine according to the present invention;

FIG. 6 is a perspective view of a support plate in a digital ink jet textile printing machine according to the present invention;

FIG. 7 is a perspective view of a fixing lug in a digital ink jet textile printing machine according to the present invention;

FIG. 8 is a schematic diagram showing the assembly of the bull's eye and the skateboard in a digital ink jet textile printing machine according to the present invention;

in the figure: 1. the device comprises a device box, 2, a top cover, 3, an inlet and outlet, 4, a sliding plate, 5, a supporting plate, 6, a servo motor, 7, a transmission shaft, 8, a driving wheel, 9, a screw rod, 10, a fixing lug, 11, a connecting rod, 12, an electric push rod, 13, a vertical plate, 14, a hanging plate, 15, a square hole, 16, a rubber sleeve, 17, a spring, 18, a push rod, 19, a squeeze plate, 20, a square plate, 21, a permanent magnet, 22, a carrier plate, 23, an electromagnet, 24, a carrier plate, 25, a nut, 26, a guide hole, 27, a strip groove, 28, a round hole, 29, a fixing hole, 30, a blind hole, 31 and a bullseye bead.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Referring to fig. 1, 2, 4 and 7, the present invention provides a technical solution: a digital ink jet textile printing machine comprises a machine box 1, a top cover 2 for installing an ink jet head is fixedly connected to the upper surface of the machine box 1, an inlet and an outlet 3 for inserting cloth are respectively arranged at the lower parts of two parallel side surfaces of the top cover 2, the inlet and the outlet 3 are arranged along the length direction of the top cover 2, a supporting plate 5 arranged along the length direction of the inlet and the outlet 3 is respectively arranged at the upper parts of the inner sides of the two inlet and the outlet 3, two vertically arranged round holes 28 are symmetrically arranged on the upper surface of the supporting plate 5, vertically arranged screw rods 9 are inserted into the round holes 28, fixing lugs 10 are fixedly arranged at the two ends of the screw rods 9, blind holes 30 are arranged at the positions of the fixing lugs 10 for installing the screw rods 9, the end parts of the screw rods 9 are fixed in the blind holes 30, the connection range of the screw rods 9 and the fixing lugs 10 is increased, the connection stability of the screw rods 9 and the fixing lugs 10 is improved, a fixing hole 29 for inserting a screw is formed in one side surface of the fixing lug 10, two nuts 25 are connected to the screw 9 in a threaded manner, the two nuts 25 are respectively arranged on the upper side and the lower side of the supporting plate 5, the fixing lugs 10 at the two ends of the screw 9 are both fixed on the inner wall of the top cover 2 by using the screw, the screw 9 is in a vertical state, the height of the supporting plate 5 is adjusted along the screw 9 according to the thickness of cloth, at the moment, the supporting plate 5 drives the servo motor 6 to move upwards or downwards, the distance between the driving wheel 8 and the upper surface of the equipment box 1 is increased or reduced until the distance between the driving wheel 8 and the equipment box 1 meets the thickness of the cloth, then the two nuts 25 on the screw 9 are screwed, the two nuts 25 on the screw 9 are in tight contact with the supporting plate 5, the fixing of the positions of the supporting plate 5 is completed, namely the positions of the driving wheel 8 are limited, the cloth with different thickness is met, and the same, when the height of the support plate 5 is limited, the position of the screw 9 is adjusted along the round hole 28 on the support plate 5, and the screw 9 drives the fixing lug 10 to move, so that the fixing hole 29 on the fixing lug 10 is staggered from the area on the top cover 2 where the screw cannot be mounted.

Referring to fig. 1, 2, 3, 6 and 8, the end of the supporting plate 5 is fixed on the inner wall of the top cover 2, two servomotors 6 are symmetrically installed on the lower surface of the supporting plate 5, a hanger plate 14 is installed on the outer surface of the servomotors 6, a bar-shaped groove 27 is formed on the upper surface of the supporting plate 5, the bar-shaped groove 27 is arranged along the length direction of the supporting plate 5, the upper end of the hanger plate 14 penetrates through the bar-shaped groove 27 and is fixedly connected with a sliding plate 4, the sliding plate 4 is slidably installed on the upper surface of the supporting plate 5, two bullseye beads 31 are installed on the two sides of the lower surface of the sliding plate 4 in the bar-shaped groove 27, the ball parts of the bullseye beads 31 are in rolling contact with the supporting plate 5, the bullseye beads 31 enable the sliding plate 4 to be in rolling contact with the supporting plate 5, a vertical plate 13 is fixedly connected with the edge of one side edge of the upper surface of the sliding plate 4, an electric push rod 12 movable end is installed on one side of the vertical plate 13, the effect of the electric push rod 12 is achieved by the vertical plate 13, the cylinder body end of the electric push rod 12 is fixed on the upper surface of the supporting plate 5, the output end of the servo motor 6 is oppositely arranged, the output end of the servo motor 6 is provided with a transmission shaft 7, one end of the transmission shaft 7 away from the servo motor 6 is fixedly connected with a driving wheel 8 for driving cloth to move, the outer surface of the driving wheel 8 is wrapped with a rubber sleeve 16, the rubber sleeve 16 is adhered to the driving wheel 8 through glue, the outer surface of the rubber sleeve 16 is provided with convex anti-skid patterns, the anti-skid patterns and the rubber sleeve 16 are of an integrated structure, the driving wheel 8 is provided with the rubber sleeve 16 with the anti-skid patterns, the friction coefficient between the driving wheel 8 and the cloth is increased, the electric push rod 12 is controlled to extend or shrink according to the width of the cloth, the electric push rod 12 drives a sliding plate 4 to slide along the surface of the supporting plate 5, the sliding plate 4 drives the servo motor 6 to move through a hanging plate 14, meanwhile, the lifting plate 14 drives the electromagnet 23 to move through the connecting rod 11, so that the relative position between the electromagnet 23 and the driving wheels 8 is kept unchanged, when the distance between the two driving wheels 8 meets the requirement of cloth width, the circuit of the electric push rod 12 is disconnected, the distance between the two corresponding driving wheels 8 is finally adjusted, the requirement of cloth with different width and size is met, and the application range is enlarged.

Referring to fig. 1, 2, 3 and 5, a guide hole 26 which is obliquely arranged is formed at the edge of one side of the driving wheel 8 facing the servo motor 6 at equal intervals in a ring shape, a plurality of square holes 15 which are obliquely arranged at equal intervals and are in one-to-one correspondence with the guide holes 26 are formed at one side of the driving wheel 8 facing away from the servo motor 6, a push rod 18 for pushing the edge of the cloth to spread towards two sides is inserted in the guide hole 26, the other end of the push rod 18 penetrates through the square holes 15 to extend to the outer side of the square holes 15, a permanent magnet 21 is fixedly connected with one end of the push rod 18 away from the servo motor 6, an electromagnet 23 which can repel the permanent magnet 21 is arranged at one side of the permanent magnet 21, the electromagnet 23 is fixedly connected with a hanger plate 14 through a connecting rod 11, the connecting rod 11 is in an L-shaped structure, a spring 17 is sleeved on the push rod 18, the spring 17 is arranged in the square holes 15, the side of the spring 17, which is far away from the guide hole 26, is provided with a square plate 20 for limiting the end position of the spring 17, the square plate 20 is sleeved on the ejector rod 18 and is fixedly connected with the ejector rod 18, the square plate 20 is in sliding contact with the inner wall of the square hole 15, the square plate 20 and the square hole 15 are mutually matched to prevent the ejector rod 18 from rotating, the servo motor 6 is used for driving the driving wheel 8 to rotate, the edge of cloth is positioned between the driving wheel 8 and the upper surface of the equipment box 1, further, under the pressure of the driving wheel 8, the cloth is prevented from wrinkling, when the cloth entering the top cover 2 is in a wrinkling state, the driving wheel 8 drives the ejector rod 18 to rotate in the rotating process, when a permanent magnet 21 on one end of the ejector rod 18 rotates to be aligned with an electromagnet 23, the electromagnet 23 is electrified to generate magnetism which is repulsed by the permanent magnet 21, the ejector rod 18 slides towards the servo motor 6 along the guide hole 26 under the repulsive force of the electromagnet 23, the lower end of the ejector rod 18 is propped against the edge of the cloth and the edge of the cloth is unfolded to two sides, so that the cloth in a folded state is straightened, the ejector rod 18 drives the square plate 20 to slide in the square hole 15 in the process of propping against the cloth, the spring 17 is in a compressed state, when the permanent magnet 21 rotates to a position far away from the electromagnet 23, the ejector rod 18 is reset under the action of the resilience force of the spring 17, and the aim of alternately expanding the edge of the cloth is fulfilled by installing a plurality of ejector rods 18 on the driving wheel 8.

Referring to fig. 2 and 3, a carrier plate 22 is fixedly connected to one end of the connecting rod 11 far away from the hanger plate 14, an electromagnet 23 is mounted on one surface of the carrier plate 22 facing the permanent magnet 21, the carrier plate 22 provides a mounting carrier for the electromagnet 23, a carrier plate 24 is fixedly connected to one end of the ejector rod 18 close to the electromagnet 23, the permanent magnet 21 is fixed to one end of the carrier plate 24 far away from the ejector rod 18, and the carrier plate 24 provides a mounting carrier for the permanent magnet 21.

Referring to fig. 2 and 3, an end of the ejector rod 18 away from the carrying disc 24 is fixedly connected with an extrusion plate 19 arranged in parallel with the upper surface of the equipment box 1, an inclined surface matched with the surface of the extrusion plate 19 is processed at one end of the ejector rod 18 close to the extrusion plate 19, the inclined surface is designed to facilitate connection of the ejector rod 18 and the extrusion plate 19, and the contact range of the ejector rod 18 and cloth during cloth expanding is enlarged by installing the extrusion plate 19 on the ejector rod 18.

The specific embodiment is as follows: the fixed lugs 10 at two ends of the screw 9 are fixed on the inner wall of the top cover 2 by using screws, the screw 9 is in a vertical state, the height of the supporting plate 5 is adjusted along the screw 9 according to the thickness of cloth, at the moment, the supporting plate 5 drives the servo motor 6 to move upwards or downwards, the distance between the driving wheel 8 and the upper surface of the equipment box 1 is increased or reduced until the distance between the driving wheel 8 and the equipment box 1 meets the requirement of the thickness of the cloth, then two nuts 25 on the screw 9 are screwed, the two nuts 25 on the screw 9 are in tight contact with the supporting plate 5, the fixing of the position of the supporting plate 5 is completed, namely the position of the driving wheel 8 is limited, the requirement of cloth with different thickness is met, the position of the supporting plate 9 is adjusted along the circular hole 28 on the supporting plate 5, the screw 9 drives the fixed lug 10 to move, the fixed hole 29 on the fixed lug 10 is staggered in the area of the top cover 2, the electric push rod 12 is controlled to extend or shrink according to the width of the cloth, the electric push rod 12 drives the sliding plate 4 to slide along the surface of the supporting plate 5, the electric push rod 4 drives the electromagnet 14 to move through the lifting plate 6, and simultaneously the width of the electromagnet 23 is driven by the lifting plate 14 is enlarged, the distance between the two electric push rods 23 is not met, the distance between the two electric push rods is adjusted, the distance between the two electric push rods is not met, and the distance between the two electric push rods is required to be adjusted, and the distance between the two electric push rods is adjusted, and the electric push rod is correspondingly required to be opened, and the distance between the electric push rod is 23 is different, and the distance is correspondingly required to be opened.

The servo motor 6 is utilized to drive the driving wheel 8 to rotate, the edge of cloth is positioned between the driving wheel 8 and the upper surface of the equipment box 1, further, under the pressure of the driving wheel 8, the cloth is prevented from being wrinkled, when the cloth entering the top cover 2 is in a wrinkled state, the driving wheel 8 rotates to drive the ejector rod 18 to rotate, when the permanent magnet 21 on one end of the ejector rod 18 rotates to be aligned with the electromagnet 23, the electromagnet 23 is electrified to generate magnetism which is repulsive to the permanent magnet 21, under the repulsive force of the permanent magnet 21 and the electromagnet 23, the ejector rod 18 slides along the guide hole 26 towards the servo motor 6, the lower end of the ejector rod 18 is abutted against the edge of the cloth, the edge of the cloth is unfolded towards two sides, relative sliding is generated between the cloth and the driving wheel 8, the cloth in a wrinkled state is straightened, the ejector rod 18 is abutted against the cloth, the ejector rod 18 drives the square plate 20 to slide in the square hole 15, at the moment, the spring 17 is in a compressed state, when the permanent magnet 21 rotates to a position far away from the electromagnet 23, the rebound force of the spring 17, the ejector rod 18 is reset, and the aim of alternately expanding the edge of the cloth is achieved by installing a plurality of ejector rods 18 on the driving wheel 8.

While the fundamental and principal features of the invention and advantages of the invention have been shown and described, 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 may be embodied in 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.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The digital ink-jet textile printing machine comprises an equipment box (1), and is characterized in that: the device comprises a device box (1), wherein the upper surface of the device box is fixedly connected with a top cover (2) for installing an ink-jet head, an inlet and an outlet (3) for penetrating cloth are formed in the lower positions of two parallel side surfaces of the top cover (2), the inlet and the outlet (3) are arranged along the length direction of the top cover (2), a supporting plate (5) arranged along the length direction of the inlet and the outlet (3) is arranged at the upper position of the inner side of the inlet and the outlet (3), the end part of the supporting plate (5) is fixed on the inner wall of the top cover (2), two servo motors (6) are symmetrically arranged on the lower surface of the supporting plate (5), hanging plates (14) are arranged on the outer surfaces of the servo motors (6), the hanging plates (14) are connected with the supporting plate (5) through connecting pieces, the output ends of the servo motors (6) are oppositely arranged, a transmission shaft (7) is arranged at the output end of the servo motors (7), one end of each transmission shaft (7) far away from the servo motor (6) is fixedly connected with a driving wheel (8) for driving the cloth to move, and a plurality of supporting pieces are arranged on the driving wheel (8) in an annular shape for enabling the cloth to be spread at the edge of the cloth to be spread at equal distance.

The expanding support piece comprises a push rod (18), a guide hole (26) which is obliquely arranged is formed in the edge of one face of the driving wheel (8) facing the servo motor (6) at equal intervals, a plurality of square holes (15) which are obliquely arranged and are in one-to-one correspondence with the guide holes (26) and are communicated with each other are formed in one face of the driving wheel (8) facing the servo motor (6) at equal intervals, a push rod (18) for pushing the cloth edge to be unfolded towards two sides is inserted in the guide holes (26), the other end of the push rod (18) penetrates through the square holes (15) to extend to the outer side of the square holes (15), one end of the push rod (18) away from the servo motor (6) is fixedly connected with a permanent magnet (21), an electromagnet (23) which can repel the permanent magnet (21) is arranged on one side of the permanent magnet (21), the electromagnet (23) is fixedly connected with a hanging plate (14) through a connecting rod (11), the connecting rod (11) is in an L-shaped structure, a spring (17) is sleeved on the push rod (18), the spring (17) is arranged in the square holes (15), one side of the push rod (17) away from the guide plate (17) is provided with a limiting plate (20), the square plate (20) is sleeved on the ejector rod (18) and fixedly connected with the ejector rod (18), and the square plate (20) is in sliding contact with the inner wall of the square hole (15).

2. A digital inkjet textile printing machine according to claim 1 wherein: the connecting piece comprises a sliding plate (4), a strip-shaped groove (27) is formed in the upper surface of the supporting plate (5), the strip-shaped groove (27) is arranged along the length direction of the supporting plate (5), the upper end of the hanging plate (14) penetrates through the strip-shaped groove (27) and is fixedly connected with the sliding plate (4), the sliding plate (4) is slidably mounted on the upper surface of the supporting plate (5), a vertical plate (13) is fixedly connected to one side edge of the upper surface of the sliding plate (4), an electric push rod (12) moving end is mounted on one side face of the vertical plate (13), and the cylinder end of the electric push rod (12) is fixed on the upper surface of the supporting plate (5).

3. A digital inkjet textile printing machine according to claim 2 wherein: two bull's eye beads (31) are installed on both sides of the lower surface of the sliding plate (4) in the strip-shaped groove (27), and the ball position of the bull's eye beads (31) is in rolling contact with the supporting plate (5).

4. A digital inkjet textile printing machine according to claim 1 wherein: one end of connecting rod (11) keeping away from hanger plate (14) fixedly connected with carrier plate (22), electro-magnet (23) are installed in carrier plate (22) one side towards permanent magnet (21), one end that ejector pin (18) is close to electro-magnet (23) fixedly connected with carries dish (24), permanent magnet (21) are fixed in the one end that carries dish (24) to deviate from ejector pin (18).

5. A digital inkjet textile printing machine according to claim 4 wherein: one end of the ejector rod (18) far away from the carrying disc (24) is fixedly connected with an extrusion plate (19) which is arranged in parallel with the upper surface of the equipment box (1), and one end of the ejector rod (18) close to the extrusion plate (19) is provided with an inclined surface matched with the surface of the extrusion plate (19).

6. A digital inkjet textile printing machine according to claim 1 wherein: two vertically arranged round holes (28) are symmetrically formed in the upper surface of the supporting plate (5), vertically arranged screw rods (9) are inserted into the round holes (28), fixing lugs (10) are fixedly installed at two ends of each screw rod (9), fixing holes (29) for inserting screws are formed in one side face of each fixing lug (10), two nuts (25) are connected to the screw rods (9) in a threaded mode, and the two nuts (25) are respectively arranged on the upper side and the lower side of the supporting plate (5).

7. A digital inkjet textile printing machine according to claim 6 wherein: a blind hole (30) is formed in the position, where the screw (9) is mounted, of the fixing lug (10), and the end portion of the screw (9) is fixed in the blind hole (30).

8. A digital inkjet textile printing machine according to claim 1 wherein: the outer surface of the driving wheel (8) is wrapped with a rubber sleeve (16), the rubber sleeve (16) is adhered to the driving wheel (8) through glue, anti-slip patterns in a protruding state are processed on the outer surface of the rubber sleeve (16), and the anti-slip patterns and the rubber sleeve (16) are of an integrated structure.