CN211567273U - Full-automatic printing machine with accurate positioning function - Google Patents

Abstract

A full-automatic printing machine with accurate positioning comprises a working platform, an equipment base, a printing plate and a lifting device for enabling the printing plate to move in the vertical direction, the printing machine also comprises a feeding device, a discharging device and a control device for controlling the lifting device and the feeding device to move, the feeding device comprises a conveying belt for placing cloth and a driving motor for providing power for the conveying belt, the lifting device comprises a connecting rod fixedly connected with the equipment base, a sliding base connected with the connecting rod in a sliding way and a servo motor used for driving the sliding base to slide on the connecting rod, the sliding base is fixedly connected with the printing plate, the control device comprises a time controller, the time controller is electrically connected with the driving motor and the lifting device respectively, and a user can set the driving motor and the servo motor to be started or closed at intervals of corresponding time on the time controller according to the movement speed of the conveying belt and the movement speed of the lifting device.

Description

Full-automatic printing machine with accurate positioning function

Technical Field

The utility model relates to a tailoring equipment field especially relates to a calico printing machine of full-automatic accurate location.

Background

The printing process belongs to a common process in modern garment processing technology, can greatly enrich styles of garments, and meet the requirement of people on the continuous improvement of garment attractiveness, in the prior art, a printing machine comprises a working platform and a printing plate, generally, a worker is required to manually place a cloth on a station of the working platform, then the printing plate is pressed downwards to cover the cloth to finish printing work, some semi-automatic printing machines are also arranged on the market, a plurality of stations are arranged on the working platform, then the printing plate is controlled by a transmission device to finish the pressing-down action and the action from one station to another station, however, the printing machines have certain problems, firstly, the printing plate can have the problem of inaccurate printing position in the process of moving from one station to another station, secondly, the feeding and discharging of the printing machine are more manually operated, the degree of automation is lower, and machining efficiency is not high, needs a large amount of human costs, and a workman can only manage a machine.

Disclosure of Invention

In order to solve the problem, the utility model provides a printing machine of full-automatic accurate location that machining precision is high, degree of automation is high.

The technical scheme of the utility model: a full-automatic printing machine with accurate positioning comprises a working platform for placing cloth to be processed, an equipment base fixedly connected to the working platform, a printing plate for processing the cloth, and a lifting device for enabling the printing plate to move in the vertical direction, the printing machine further comprises a feeding device, a discharging device, and a control device for controlling the movement of the lifting device and the feeding device, wherein the feeding device comprises a transmission belt for placing the cloth and a driving motor for providing power for the transmission belt, the lifting device comprises a connecting rod fixedly connected to the equipment base, a sliding base slidably connected to the connecting rod, and a servo motor for driving the sliding base to slide on the connecting rod, the sliding base is fixedly connected with the printing plate, the control device comprises a time controller, and the time controller is respectively electrically connected with the driving motor and the lifting device, the user can set the driving motor and the servo motor to be turned on or off at corresponding intervals on the time controller according to the movement speed of the conveying belt and the movement speed of the lifting device.

By adopting the technical scheme, when printing work is started, a worker puts cloth on the conveying belt, the driving motor drives the conveying belt to move, because a user can set the driving motor and the servo motor to be turned on or off at intervals of corresponding time on the time controller according to the movement speed of the conveying belt and the movement speed of the lifting device, when the cloth is conveyed to a proper station, the time controller controls the driving motor to stop working, then controls the servo motor to start working, so that the printing plate is pressed downwards to finish the printing work on the cloth, after the printing plate finishes the printing work, the time controller controls the driving motor to continue working, the conveying belt drives the cloth to move to the discharging device, and after the cloth is discharged, the whole processing process is finished, thus greatly reducing the workload of the operator, improving the automation degree of the printing machine, and enabling one operator to manage a plurality of machines, the production efficiency is improved, and the labor cost is reduced.

The utility model discloses a further setting: the calico printing machine still includes the detection device who is used for detecting the cloth position and is used for feeding back the detection result of detection device to controlling means's feedback component, detection device includes fixed connection in work platform's detecting element, detecting element's position corresponds with the position of stamp board.

Adopt above-mentioned technical scheme, because the calico printing machine still includes detection device and feedback element, detection device includes fixed connection in work platform's detecting element, and detecting element's position is corresponding with the position of stamp board, when the cloth passes through the transmission band and moves to the station department that the stamp board corresponds, after detecting element detects the cloth, through feedback element controlling means, control driving motor stop work, can make the position of stamp board stamp more accurate like this, ensure the aesthetic property of cloth stamp effect.

The utility model discloses a further setting: the detecting element includes infrared ray transmitting element and infrared ray receiving element, the plane of locating of infrared ray transmitting element and infrared ray receiving element is perpendicular with the transmission band direction of motion, and infrared ray transmitting element is located the printing plate with infrared ray receiving element and is close to discharging device one end, controlling means still includes the PLC controller, and when the cloth has blockked the infrared ray signal that infrared ray transmitting element sent and has made infrared ray receiving element can not receive infrared ray signal, the feedback element is to the signal of telecommunication of PLC controller transmission, and PLC controller control driving motor stall controls servo motor and begins work simultaneously.

Adopt above-mentioned technical scheme, because the plane of locating of infrared emission component and infrared receiving element is perpendicular with the transmission band direction of motion, infrared emission component and infrared receiving element are located the stamp board and are close to discharging device one end, therefore, when the cloth gets into stamp machine working range completely, the cloth can block the infrared ray signal of infrared emission component transmission, infrared receiving element can not receive behind the infrared ray signal of infrared emission component transmission, the feedback component sends the signal of telecommunication to the PLC controller, PLC controller control driving motor stops working at once, the precision of stamp work has been improved greatly.

The utility model discloses a further setting: the discharging device comprises a clamping device for clamping cloth and a transmission device for driving the clamping device to move, the clamping device comprises a vacuum chuck and a vacuum pump for controlling the vacuum chuck, the transmission device comprises a transmission shaft fixedly connected to the equipment base and a transmission motor for driving the vacuum chuck to move on the transmission shaft, and the vacuum chuck is connected to the transmission shaft in a sliding manner.

Adopt above-mentioned technical scheme, owing to press from both sides the device and include vacuum chuck and the vacuum pump that is used for controlling vacuum chuck, transmission includes the transmission shaft of fixed connection on the equipment base and is used for driving the transmission motor of vacuum chuck motion on the transmission shaft, vacuum chuck sliding connection is in the transmission shaft, when the cloth accomplished stamp work and gets into discharging device's station, transmission motor drive vacuum chuck moves to station department, and the vacuum pump begins to work, and the last negative pressure that produces of vacuum chuck can adsorb the cloth, and transmission motor reverse run leaves the calico printing machine with the cloth area, just so accomplishes automatic discharging work, has further reduced staff's work load, improves production efficiency greatly.

The utility model discloses a further setting: vacuum chuck includes sliding connection in the sucking disc body of transmission shaft and connects the adsorption element on the sucking disc body, the shape size of sucking disc body and the shape size looks adaptation of cloth, adsorption element's quantity is four, and four adsorption element distribute on four angles of sucking disc body, and four adsorption element enclose into the rectangle.

Adopt above-mentioned technical scheme, because vacuum chuck includes sliding connection in the sucking disc body of transmission shaft and connects the adsorption element on the sucking disc body, the shape size of sucking disc body and the shape size looks adaptation of cloth, four adsorption element distribute on four angles of sucking disc body, can adsorb four angles of cloth when vacuum chuck adsorbs the cloth like this, guarantee that the cloth keeps leveling from calico printing machine ejection of compact in-process, avoid stamp part totally in a wretched state to lead to stamp part adhesion, influence the aesthetic property of cloth.

Drawings

Fig. 1 is a schematic structural diagram of a full-automatic accurate positioning printing machine according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a full-automatic accurate positioning printing machine according to the embodiment of the present invention.

Fig. 3 is the utility model discloses a device is got to full-automatic accurate location's calico printing machine middle clamp of embodiment's structural schematic.

Detailed Description

As shown in fig. 1-3, a full-automatic printing machine with precise positioning comprises a work platform 1 for placing cloth to be processed, an equipment base 2 fixedly connected to the work platform 1, a printing plate 3 for processing cloth, and a lifting device 4 for moving the printing plate 3 in a vertical direction, the printing machine further comprises a feeding device 5, a discharging device 6, a control device 7 for controlling the movement of the lifting device 4 and the feeding device 5, the feeding device 5 comprises a transmission belt 8 for placing cloth and a driving motor 9 for providing power for the transmission belt 8, the lifting device 4 comprises a connecting rod 10 fixedly connected to the equipment base 2, a sliding base 11 slidably connected to the connecting rod 10, and a servo motor 12 for driving the sliding base 11 to slide on the connecting rod 10, the sliding base 11 is fixedly connected to the printing plate 3, the control device 7 comprises a time controller 13, the time controller 13 is respectively electrically connected with the driving motor 9 and the lifting device 4, and a user can set the driving motor 9 and the servo motor 12 to be switched on or switched off at corresponding intervals on the time controller 13 according to the movement speed of the conveying belt 8 and the movement speed of the lifting device 4.

When printing work is started, a worker puts cloth on the transmission belt 8, the driving motor 9 drives the transmission belt 8 to move, because a user can set the driving motor 9 and the servo motor 12 on the time controller 13 at intervals according to the movement speed of the transmission belt 8 and the movement speed of the lifting device 4, when the cloth is transmitted to a proper station, the time controller 13 controls the driving motor 9 to stop working and then controls the servo motor 12 to start working, so that the printing plate 3 is pressed down, printing work is finished on the cloth, after the printing plate 3 finishes printing work, the time controller 13 controls the driving motor 9 to continue working, the transmission belt 8 drives the cloth to move to the discharging device 6, and after the cloth is discharged, the whole processing process is finished, thus greatly reducing the workload of the operator, improving the automation degree of the printing machine, and enabling the operator to manage a plurality of machines, the production efficiency is improved, and the labor cost is reduced.

The embossing machine further comprises a detection device 14 for detecting the position of the cloth and a feedback element for feeding back the detection result of the detection device 14 to the control device 7, wherein the detection device 14 comprises a detection element 15 fixedly connected to the working platform 1, and the position of the detection element 15 corresponds to the position of the embossing plate 3.

Because calico printing machine still includes detection device 14 and feedback element, detection device 14 includes fixed connection in work platform 1's detecting element 15, and detecting element 15's position is corresponding with the position of stamp board 3, when the cloth passes through the transmission band 8 and moves to the station department that stamp board 3 corresponds, detecting element 15 detects the cloth after, through feedback element controlling means 7, control driving motor 9 stop work, can make the position of stamp board 3 stamp more accurate like this, ensure the aesthetic property of cloth stamp effect.

The detecting element 15 comprises an infrared emitting element 16 and an infrared receiving element 17, the plane where the infrared emitting element 16 and the infrared receiving element 17 are located is perpendicular to the motion direction of the conveying belt 8, the infrared emitting element 16 and the infrared receiving element are located at one end, close to the discharging device 6, of the printing plate 3, the control device 7 further comprises a PLC (programmable logic controller) 18, when the cloth blocks an infrared signal sent by the infrared emitting element 16, so that the infrared receiving element 17 cannot receive the infrared signal, the feedback element transmits an electric signal to the PLC 18, the PLC 18 controls the driving motor 9 to stop running, and meanwhile, the servo motor 12 is controlled to start working.

Because the plane of infrared emission component 16 and infrared receiving component 17 is perpendicular with the direction of motion of transmission band 8, infrared emission component 16 is located printing board 3 and is close to discharging device 6 one end with infrared receiving component, therefore, when the cloth got into printing machine working range completely, the cloth can block the infrared ray signal of infrared emission component 16 transmission, infrared receiving component 17 can not receive behind the infrared ray signal of infrared emission component 16 transmission, feedback component sends the signal of telecommunication to PLC controller 18, PLC controller 18 control driving motor 9 stops working at once, the precision of printing work has been improved greatly.

The discharging device 6 comprises a clamping device 19 for clamping cloth and a transmission device 20 for driving the clamping device 19 to move, the clamping device 19 comprises a vacuum chuck 21 and a vacuum pump 22 for controlling the vacuum chuck 21, the transmission device 20 comprises a transmission shaft 23 fixedly connected to the equipment base 2 and a transmission motor 24 for driving the vacuum chuck 21 to move on the transmission shaft 23, and the vacuum chuck 21 is slidably connected to the transmission shaft 23.

Because press from both sides device 19 and include vacuum chuck 21 and the vacuum pump 22 that is used for controlling vacuum chuck 21, transmission 20 includes transmission shaft 23 of fixed connection on equipment base 2 and the transmission motor 24 that is used for driving vacuum chuck 21 and moves on transmission shaft 23, vacuum chuck 21 sliding connection is in transmission shaft 23, when the cloth finishes stamp work and gets into discharging device 6's station, transmission motor 24 drive vacuum chuck 21 moves to station department, and vacuum pump 22 begins work, and vacuum chuck 21 is last to produce the negative pressure and can be adsorbed the cloth, and transmission motor 24 reverse run leaves the calico printing machine with the cloth area, just so accomplishes automatic discharging work, has further reduced staff's work load, improves production efficiency greatly.

Vacuum chuck 21 includes sliding connection in the sucking disc body 25 of transmission shaft 23 and connects the adsorption element 26 on sucking disc body 25, the shape size of sucking disc body 25 and the shape size looks adaptation of cloth, adsorption element 26's quantity is four, and four adsorption element 26 distribute in four angles of sucking disc body 25, and four adsorption element 26 enclose into the rectangle.

Because vacuum chuck 21 includes sliding connection in the sucking disc body 25 of transmission shaft 23 and connects the adsorption element 26 on sucking disc body 25, the shape size of sucking disc body 25 and the shape size looks adaptation of cloth, four adsorption element 26 distribute on four angles of sucking disc body 25, vacuum chuck 21 adsorbs can adsorb four angles of cloth when living the cloth like this, guarantee that the cloth keeps leveling from calico printing machine ejection of compact in-process, avoid stamp part totally dry in a wretched state to lead to stamp part to be glutinous, influence the aesthetic property of cloth.

Claims (5)

1. The utility model provides a calico printing machine of full-automatic accurate location, is including the elevating gear that is used for placing work platform, fixed connection in work platform's equipment base, is used for processing the stamp board of cloth and is used for making the stamp board remove in vertical direction, its characterized in that of treating processing cloth: the calico printing machine still includes feed arrangement, discharging device, is used for controlling elevating gear, the controlling means of feed arrangement motion, feed arrangement is including the transmission band that is used for placing the cloth and being used for providing the driving motor of power for the transmission band, elevating gear includes fixed connection in the connecting rod of equipment base, sliding connection in the sliding base of connecting rod and is used for driving sliding base gliding servo motor on the connecting rod, sliding base and stamp board fixed connection, controlling means includes time controller, time controller is connected with driving motor and elevating gear electricity respectively, and the user can set up every corresponding time according to the velocity of motion of the transmission band and elevating gear's velocity of motion and open or close driving motor and servo motor on time controller.

2. The full-automatic printing machine with accurate positioning according to claim 1, characterized in that: the calico printing machine still includes the detection device who is used for detecting the cloth position and is used for feeding back the detection result of detection device to controlling means's feedback component, detection device includes fixed connection in work platform's detecting element, detecting element's position corresponds with the position of stamp board.

3. The full-automatic printing machine with accurate positioning according to claim 2, characterized in that: the detecting element includes infrared ray transmitting element and infrared ray receiving element, the plane of locating of infrared ray transmitting element and infrared ray receiving element is perpendicular with the transmission band direction of motion, and infrared ray transmitting element is located the printing plate with infrared ray receiving element and is close to discharging device one end, controlling means still includes the PLC controller, and when the cloth has blockked the infrared ray signal that infrared ray transmitting element sent and has made infrared ray receiving element can not receive infrared ray signal, the feedback element is to the signal of telecommunication of PLC controller transmission, and PLC controller control driving motor stall controls servo motor and begins work simultaneously.

4. The full-automatic printing machine with accurate positioning according to claim 1, characterized in that: the discharging device comprises a clamping device for clamping cloth and a transmission device for driving the clamping device to move, the clamping device comprises a vacuum chuck and a vacuum pump for controlling the vacuum chuck, the transmission device comprises a transmission shaft fixedly connected to the equipment base and a transmission motor for driving the vacuum chuck to move on the transmission shaft, and the vacuum chuck is connected to the transmission shaft in a sliding manner.

5. The full-automatic printing machine with accurate positioning according to claim 4, characterized in that: vacuum chuck includes sliding connection in the sucking disc body of transmission shaft and connects the adsorption element on the sucking disc body, the shape size of sucking disc body and the shape size looks adaptation of cloth, adsorption element's quantity is four, and four adsorption element distribute on four angles of sucking disc body, and four adsorption element enclose into the rectangle.

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