CN221417721U - Flattening mechanism of automatic printing machine - Google Patents

Abstract

The utility model discloses a flattening mechanism of an automatic printing machine, which relates to a mechanism in the technical field of printing machines and comprises a workbench, wherein a conveyor belt is arranged on the inner side of the workbench, the conveyor belt is used for conveying cloth, a printing mechanism is arranged at the top end of the workbench, the printing mechanism is used for printing the cloth, a flattening mechanism is arranged at the top end of the workbench, and the flattening mechanism is used for flattening the cloth. According to the utility model, the flattening mechanism is arranged, so that the distance between the two guide rollers can be increased by one guide roller in the ascending state, a worker can conveniently place the end of the cloth in the middle area of the two guide rollers, the two guide rollers in the synchronous rotation state can guide and move the cloth, and the flattening roller in the lifting state can adjust the tensioning force of the cloth along with the moving speed of the cloth, so that the flattening roller smoothes the cloth, and the condition that the surface of the cloth is wrinkled to influence the quality of a finished product is avoided.

Description

Flattening mechanism of automatic printing machine

Technical Field

The utility model relates to the technical field of printing machines, in particular to a flattening mechanism of an automatic printing machine.

Background

The automatic printing machine is mainly applied to multicolor overprinting on garment and cut pieces, can be used for printing various sizing agents such as mucilage, water slurry, printing ink and the like, and is required to be used for printing cloth during cloth processing.

When the cloth is printed, the coiled cloth is discharged on the conveyor belt through the unreeling roller, the conveyor belt conveys the cloth to a printing mechanism area, so that the printing screen and the brush plate print the cloth, when the cloth is placed on the conveyor belt, the local bulge and protrusion of the surface of the cloth are easily caused due to the fact that the length of the cloth is longer and wider, and the surface of the cloth is in a wrinkled state and is not paved, so that the printing quality of a finished product is affected.

Disclosure of utility model

The utility model aims at: in order to solve the problem that the quality of a finished product is affected by folds on the surface of cloth, a flattening mechanism of an automatic printing machine is provided.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an automatic flattening mechanism of calico printing machine, includes the workstation, the conveyer belt is installed to the inboard of workstation, the conveyer belt is used for conveying the cloth, printing mechanism is installed on the top of workstation, printing mechanism is used for carrying out the stamp to the cloth, the outer wall of workstation passes through the support mounting and has the motor, the motor is used for driving the conveyer belt runs, flattening mechanism is installed on the top of workstation, flattening mechanism is used for flattening the cloth;

The flattening mechanism comprises a flattening roller, a driving assembly, a lifting assembly and two guide rollers;

The lifting assembly is used for driving one guide roller to lift and move, and one guide roller in a lifting state is used for increasing the distance between the two guide rollers;

The driving assembly is used for driving another guide roller to rotate, the other guide roller in a rotating state drives one guide roller to synchronously rotate through the transmission of cloth, and the flattening roller is used for flattening the cloth.

As still further aspects of the utility model: the driving assembly comprises a frame, a rotating shaft, a first synchronous wheel, a second synchronous wheel, a synchronous belt, a connecting plate, a telescopic rod, a spring and a fixing frame;

The frame is fixedly connected to the top end of the workbench, the rotating shaft is rotatably connected to the inner side of the frame and extends outwards, the first synchronous wheel is assembled at the end part of the output shaft of the motor, the second synchronous wheel is assembled at the end part of the rotating shaft, and the first synchronous wheel and the second synchronous wheel are in transmission connection through the synchronous belt;

The connecting plate fixed connection in the top of frame, the fixed part fixed connection of telescopic link in the bottom of connecting plate, the mount with the movable part fixed connection of telescopic link, the spring cup joint in the outer wall of telescopic link, just the both ends of spring respectively with connecting plate, mount fixed connection, the flattening roller rotate connect in the inboard of mount.

As still further aspects of the utility model: the outer sides of the first synchronous wheel and the second synchronous wheel are meshed with tooth grooves on the inner side of the synchronous belt, the first synchronous wheel in a rotating state is used for driving the second synchronous wheel to rotate through the synchronous belt, and the second synchronous wheel in a rotating state is used for driving the other guide roller to rotate.

As still further aspects of the utility model: the lifting assembly comprises a connecting shaft, a screw rod and two sliding grooves;

The sliding groove is formed in the inner side of the frame and extends towards the inner side of the frame, the end part of the connecting shaft is rotationally connected to the inner side of the sliding groove, the screw rod is rotationally arranged in one sliding groove and extends towards the outer side of the sliding groove, and the screw rod is connected with the connecting shaft through a screw rod seat.

As still further aspects of the utility model: one guide roller is rotatably connected to the outer wall of the connecting shaft, and the other guide roller is fixedly connected to the outer wall of the rotating shaft.

As still further aspects of the utility model: the outer wall of the connecting shaft is matched with the inner wall of the chute, and the screw rod in a rotating state is used for driving one guide roller to lift and move through the connecting shaft.

Compared with the prior art, the utility model has the beneficial effects that:

Through setting up flattening mechanism, make one guide roll of rising state can increase the interval between two guide rolls, the end of being convenient for the operator with the cloth is placed in the intermediate zone of two guide rolls, and two guide rolls of synchronous rotation state can lead to the removal to the cloth, but lifting state's flattening roller can adjust the tensioning dynamics to the cloth along with the moving speed of cloth to thereby flattening roller smoothes the cloth, thereby avoids the surface of cloth to appear the condition that the fold influences the finished product quality.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a flattening mechanism according to the present utility model;

FIG. 3 is a schematic view of another view of the flattening mechanism of the present utility model.

In the figure: 1. a work table; 2. a conveyor belt; 3. a printing mechanism; 4. a motor; 5. a flattening mechanism; 501. a frame; 502. a guide roller; 503. a rotating shaft; 504. a connecting shaft; 505. a first synchronizing wheel; 506. a second synchronizing wheel; 507. a synchronous belt; 508. a chute; 509. a screw rod; 5010. a connecting plate; 5011. a telescopic rod; 5012. a spring; 5013. a flattening roller; 5014. and a fixing frame.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 3, in an embodiment of the present utility model, a flattening mechanism of an automatic printing machine includes a workbench 1, a conveyor belt 2 is installed on the inner side of the workbench 1, the conveyor belt 2 is used for conveying cloth, a printing mechanism 3 is installed on the top end of the workbench 1, the printing mechanism 3 is used for printing the cloth, a motor 4 is installed on the outer wall of the workbench 1 through a bracket, the motor 4 is used for driving the conveyor belt 2 to operate, a flattening mechanism 5 is installed on the top end of the workbench 1, and the flattening mechanism 5 is used for flattening the cloth;

the flattening mechanism 5 comprises a flattening roller 5013, a driving component, a lifting component and two guide rollers 502;

the lifting assembly is used for driving one guide roller 502 to lift, and one guide roller 502 in a lifting state is used for increasing the distance between the two guide rollers 502;

The driving component is used for driving the other guide roller 502 to rotate, the other guide roller 502 in a rotating state drives the one guide roller 502 to synchronously rotate through the transmission of cloth, and the flattening roller 5013 is used for flattening the cloth.

In this embodiment: when the cloth is required to be flattened, firstly, the screw rod 509 is rotated clockwise by hands, so that the screw rod 509 in a clockwise rotation state drives the connecting shaft 504 to ascend along the tracks of the two sliding grooves 508, the connecting shaft 504 in an ascending state drives one guide roller 502 to ascend, the space between the two guide rollers 502 is increased by one guide roller 502 in the ascending state, a worker can conveniently place the end of the cloth in the middle area of the two guide rollers 502, and after the end of the cloth is placed, the screw rod 509 is rotated anticlockwise, so that the screw rod 509 in an anticlockwise rotation state drives one guide roller 502 to descend through the connecting shaft 504, and the two guide rollers 502 are contacted with the cloth;

At this time, the motor 4 is powered on, the driving conveyor belt 2 of the output shaft of the motor 4 in the power-on state runs, the conveyor belt 2 in the running state conveys the cloth to the printing mechanism 3 area, while the conveyor belt 2 runs, the output shaft of the motor 4 drives the first synchronizing wheel 505 to rotate, the first synchronizing wheel 505 and the second synchronizing wheel 506 are in transmission connection through the synchronous belt 507, the first synchronizing wheel 505 in the rotating state drives the second synchronizing wheel 506 to rotate through the synchronous belt 507, the second synchronizing wheel 506 in the rotating state drives the other guide roller 502 to rotate through the rotating shaft 503, one guide roller 502 is in rotation connection with the connecting shaft 504 because one guide roller 502 drives one guide roller 502 to synchronously rotate through the transmission of the cloth, so that the two guide rollers 502 in the synchronous rotating state apply pressing force to the cloth, the outer wall of the cloth is in tension state in the cloth moving process, when the device accelerates the cloth unreeling, the moving speed of the cloth is fast, the cloth 5011 can be adjusted along with the lifting force of the cloth through the telescopic spring 5013, and the lifting force of the cloth is adjustable.

Referring to fig. 2, the driving assembly includes a frame 501, a rotating shaft 503, a first synchronizing wheel 505, a second synchronizing wheel 506, a synchronous belt 507, a connecting plate 5010, a telescopic rod 5011, a spring 5012, and a fixing frame 5014;

The frame 501 is fixedly connected to the top end of the workbench 1, the rotating shaft 503 is rotatably connected to the inner side of the frame 501 and extends to the outer side of the frame, the first synchronous wheel 505 is assembled at the end part of the output shaft of the motor 4, the second synchronous wheel 506 is assembled at the end part of the rotating shaft 503, and the first synchronous wheel 505 and the second synchronous wheel 506 are in transmission connection through the synchronous belt 507;

Connecting plate 5010 fixed connection is in the top of frame 501, and telescopic link 5011's fixed part fixed connection is in connecting plate 5010's bottom, and mount 5014 and telescopic link 5011's movable part fixed connection, spring 5012 cup joint in telescopic link 5011's outer wall, and spring 5012's both ends respectively with connecting plate 5010, mount 5014 fixed connection, the inboard in mount 5014 is connected in the rotation of leveling roller 5013.

In this embodiment: the output shaft of the motor 4 drives the first synchronizing wheel 505 to rotate, the first synchronizing wheel 505 and the second synchronizing wheel 506 are connected through the synchronous belt 507 in a transmission way, the first synchronizing wheel 505 in a rotating state drives the second synchronizing wheel 506 to rotate through the synchronous belt 507, the second synchronizing wheel 506 in a rotating state drives the other guide roller 502 to rotate through the rotating shaft 503, the other guide roller 502 in the rotating state drives the one guide roller 502 to synchronously rotate through the transmission of cloth, the two guide rollers 502 in the synchronous rotating state guide and move the cloth, the outer wall of the leveling roller 5013 is in contact with the cloth in the moving process of the cloth, the leveling roller 5013 applies a pressing force to the cloth, the cloth is in a tensioning state, when the device is used for accelerating unreeling the cloth, the moving speed of the cloth is fast, the leveling roller 5013 can be driven to move up and down through the expansion of the expansion link 5011 and the spring 5012, and the leveling roller 5013 in a lifting state can adjust the tensioning force to the cloth along with the moving speed of the cloth.

Referring to fig. 2, the outer sides of the first and second synchronous wheels 505 and 506 are engaged with the tooth grooves on the inner side of the synchronous belt 507, the first synchronous wheel 505 in a rotating state is used for driving the second synchronous wheel 506 to rotate through the synchronous belt 507, and the second synchronous wheel 506 in a rotating state is used for driving the other guide roller 502 to rotate.

In this embodiment: because one guide roller 502 is rotationally connected with the connecting shaft 504, the other guide roller 502 in a rotating state drives the one guide roller 502 to synchronously rotate through the transmission of cloth, so that the two guide rollers 502 in the synchronously rotating state flatten the cloth.

Referring to fig. 3, the lifting assembly includes a connecting shaft 504, a screw 509, and two sliding slots 508;

the slide grooves 508 are opened inside the frame 501 and extend inward, the end of the connecting shaft 504 is rotatably connected to the inside of the slide grooves 508, the screw 509 is rotatably mounted inside one slide groove 508 and extends outward, and the screw 509 is connected to the connecting shaft 504 through a screw seat.

In this embodiment: the screw rod 509 is rotated clockwise by hands, so that the screw rod 509 in a clockwise rotation state drives the connecting shaft 504 to ascend along the tracks of the two sliding grooves 508, the connecting shaft 504 in an ascending state drives one guide roller 502 to ascend, the distance between the two guide rollers 502 is increased by one guide roller 502 in an ascending state, a worker can conveniently place the end of the cloth in the middle area of the two guide rollers 502, after the end of the cloth is placed, the screw rod 509 is rotated anticlockwise again, and the screw rod 509 in a anticlockwise rotation state drives one guide roller 502 to descend through the connecting shaft 504, so that the two guide rollers 502 are in contact with the cloth.

Referring to fig. 2, one guide roller 502 is rotatably connected to an outer wall of a connecting shaft 504, and the other guide roller 502 is fixedly connected to an outer wall of a rotating shaft 503.

In this embodiment: one guide roller 502 is driven to rotate by the other guide roller 502 in a rotating state, so that the two guide rollers 502 synchronously rotate.

Referring to fig. 3, the outer wall of the connecting shaft 504 is matched with the inner wall of the chute 508, and a rotating screw 509 is used to drive a guiding roller 502 to move up and down through the connecting shaft 504.

In this embodiment: the connecting shaft 504 is driven to move up and down along the tracks of the two sliding grooves 508 by rotating the screw 509, so that the connecting shaft 504 in the state of moving up and down drives one guide roller 502 to move up and down.

The foregoing description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical solution of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The utility model provides an automatic flattening mechanism of calico printing machine, includes workstation (1), conveyer belt (2) are installed to the inboard of workstation (1), conveyer belt (2) are used for conveying the cloth, printing mechanism (3) are installed on the top of workstation (1), printing mechanism (3) are used for carrying out the stamp to the cloth, the outer wall of workstation (1) is through support mounting has motor (4), motor (4) are used for driving conveyer belt (2) are operated, a serial communication port, flattening mechanism (5) are installed on the top of workstation (1), flattening mechanism (5) are used for flattening the cloth;

the flattening mechanism (5) comprises a flattening roller (5013), a driving assembly, a lifting assembly and two guide rollers (502);

The lifting assembly is used for driving one guide roller (502) to lift, and one guide roller (502) in a lifting state is used for increasing the distance between the two guide rollers (502);

The driving assembly is used for driving the other guide roller (502) to rotate, the other guide roller (502) in a rotating state drives one guide roller (502) to synchronously rotate through the transmission of cloth, and the flattening roller (5013) is used for flattening the cloth.

2. The flattening mechanism of an automatic printing machine according to claim 1, wherein the driving assembly comprises a frame (501), a rotating shaft (503), a first synchronizing wheel (505), a second synchronizing wheel (506), a synchronous belt (507), a connecting plate (5010), a telescopic rod (5011), a spring (5012), and a fixing frame (5014);

The frame (501) is fixedly connected to the top end of the workbench (1), the rotating shaft (503) is rotatably connected to the inner side of the frame (501) and extends towards the outer side of the frame, the first synchronizing wheel (505) is assembled at the end part of the output shaft of the motor (4), the second synchronizing wheel (506) is assembled at the end part of the rotating shaft (503), and the first synchronizing wheel (505) and the second synchronizing wheel (506) are in transmission connection through the synchronous belt (507);

Connecting plate (5010) fixed connection in the top of frame (501), fixed part fixed connection of telescopic link (5011) in the bottom of connecting plate (5010), mount (5014) with the movable part fixed connection of telescopic link (5011), spring (5012) cup joint in the outer wall of telescopic link (5011), just the both ends of spring (5012) respectively with connecting plate (5010), mount (5014) fixed connection, leveling roller (5013) rotate connect in the inboard of mount (5014).

3. The flattening mechanism of an automatic printing machine according to claim 2, wherein the outer sides of the first synchronizing wheel (505) and the second synchronizing wheel (506) are meshed with tooth grooves on the inner side of the synchronous belt (507), the first synchronizing wheel (505) in a rotating state is used for driving the second synchronizing wheel (506) to rotate through the synchronous belt (507), and the second synchronizing wheel (506) in a rotating state is used for driving the other guide roller (502) to rotate.

4. A flattening mechanism of an automatic embossing machine, according to claim 2, characterized in that said lifting assembly comprises a connecting shaft (504), a screw (509), two runners (508);

The sliding grooves (508) are formed in the inner side of the frame (501) and extend inwards, the end parts of the connecting shafts (504) are rotatably connected to the inner parts of the sliding grooves (508), the screw rods (509) are rotatably arranged in one sliding groove (508) and extend outwards, and the screw rods (509) are connected with the connecting shafts (504) through screw rod seats.

5. The flattening mechanism of an automatic embossing machine as in claim 4, wherein one of said guide rollers (502) is rotatably connected to the outer wall of said connecting shaft (504), and the other guide roller (502) is fixedly connected to the outer wall of said rotating shaft (503).

6. The flattening mechanism of an automatic embossing machine as claimed in claim 4, wherein the outer wall of the connecting shaft (504) is matched with the inner wall of the chute (508), and the screw (509) in a rotating state is used for driving one guide roller (502) to move up and down through the connecting shaft (504).