CN211567274U

CN211567274U - Semi-automatic calico printing machine in duplex position

Info

Publication number: CN211567274U
Application number: CN201921580122.7U
Authority: CN
Inventors: 吴楚楚
Original assignee: Wenzhou Lucheng Jiangxin Garment Machinery Co ltd
Current assignee: Wenzhou Lucheng Jiangxin Garment Machinery Co ltd
Priority date: 2019-09-20
Filing date: 2019-09-20
Publication date: 2020-09-25
Anticipated expiration: 2029-09-20

Abstract

A double-station semi-automatic printing machine, which comprises a working platform for placing cloth to be processed, an equipment base fixedly connected with the working platform, a printing plate for processing the cloth and a transmission device for moving the printing plate, the double-station semi-automatic printing machine further comprises a control device for controlling the position of the printing plate and a feeding device for feeding, the control device comprises a PLC controller, a position sensor for detecting the position of the printing plate and a feedback element for feeding back the information obtained by the position sensor to the PLC control element, the working platform is provided with two stations, the shape and the size of each station are matched with the shape and the size of the printing plate, the feeding device comprises a feeding disc, a rotating shaft positioned at the bottom of the feeding disc and a rotating motor used for driving the rotating shaft to rotate, wherein four stations with the same size are arranged on the feeding disc.

Description

Semi-automatic calico printing machine in duplex position

Technical Field

The utility model relates to a tailoring equipment field especially relates to a semi-automatic calico printing machine in duplex position.

Background

The printing process is widely applied to garment production, styles of garments can be greatly enriched, personalized requirements of people on the garments are met, in the prior art, a printing machine usually comprises a working platform, a printing plate and a lifting device for controlling the lifting of the printing plate, the printing machine has the defects that the printing machine can only work on one station, the working efficiency of the printing machine is influenced, and the printing machine with multiple stations is available on the market.

Disclosure of Invention

In order to solve the problem, the utility model provides a semi-automatic calico printing machine in duplex position that machining precision is high, degree of automation is high.

The technical scheme of the utility model: a double-station semi-automatic printing machine, which comprises a working platform for placing cloth to be processed, an equipment base fixedly connected with the working platform, a printing plate for processing the cloth and a transmission device for moving the printing plate, the double-station semi-automatic printing machine further comprises a control device for controlling the position of the printing plate and a feeding device for feeding, the control device comprises a PLC controller, a position sensor for detecting the position of the printing plate and a feedback element for feeding back the information obtained by the position sensor to the PLC control element, the working platform is provided with two stations, the shape and the size of each station are matched with the shape and the size of the printing plate, the feeding device comprises a feeding disc, a rotating shaft positioned at the bottom of the feeding disc and a rotating motor used for driving the rotating shaft to rotate, wherein four stations with the same size are arranged on the feeding disc.

By adopting the technical scheme, when the cloth is required to be printed, firstly, the cloth is put on each station on the feeding disc, then the PLC controls the transmission device to drive the printing plate to move to the accurate station position, when the printing work is finished, the position sensor senses that the printing plate contacts one side of the equipment base, an electric signal is sent to the feedback element, the feedback element transmits the electric signal to the PLC, the PLC controls the printing plate to move to the next station, when the cloth of two stations on the working platform finishes the printing work, the PLC controls the rotating motor to rotate 180 degrees, so that the cloth on the other two unprocessed stations on the feeding disc is processed, a worker can take the processed cloth at the moment and then take the new cloth to be processed off on the station, therefore, the processing efficiency can be greatly improved, the machine does not need to be stopped when the cloth is disassembled and assembled, the processing work and the disassembling and assembling work can be carried out simultaneously, and the processing efficiency is further improved.

The utility model discloses a further setting: the transmission is including the cross axle sliding element who is fixed in the equipment base, sliding connection in cross axle sliding element's sliding base and the first driving motor who is used for driving sliding base lateral motion, stamp board swing joint is in sliding base, and the last second driving motor who is used for driving the stamp board and moves in vertical direction that is equipped with of sliding base, the last slip track that is equipped with vertical direction of sliding base, the stamp board can slide along slip track direction.

Adopt above-mentioned technical scheme, because the transmission including be fixed in the cross axle sliding element of equipment base, sliding connection in cross axle sliding element's slide base and be used for driving slide base lateral movement's first driving motor, consequently slide base can drive the stamp board at lateral movement, because the last slip track that is equipped with the vertical direction of slide base, and be equipped with the second driving motor that is used for driving the stamp board at the motion of vertical direction on the slide base, the stamp board can slide along the slip track direction.

The utility model discloses a further setting: the left side and the right side of the printing plate are respectively provided with a position sensor, when the sliding base contacts the equipment base, the position sensors send electric signals to the feedback element, and the PLC controller controls the first driving motor to rotate reversely.

By adopting the technical scheme, the left side and the right side of the printing plate are respectively provided with the position sensors, when the sliding base contacts the equipment base, the position sensors send electric signals to the feedback element, and the PLC controls the first driving motor to rotate reversely, so that the accuracy of the position of the printing plate during processing can be ensured, and the attractiveness of a product is ensured.

The utility model discloses a further setting: the inside fretwork of sliding base, the slip track sets up in the sliding base inner wall, be equipped with connection base between sliding base and the stamp board, connection base includes sliding connection in sliding base's connecting rod and fixed connection in the press board of connecting rod, the shape size of connecting rod and the shape size looks adaptation of sliding base fretwork part, press board sliding connection in stamp board, be equipped with the connecting pin on the stamp board, be equipped with the pinhole with the shape size looks adaptation of connecting pin on the press board, be equipped with damping spring on the connecting pin outer wall.

Adopt above-mentioned technical scheme, when needs press the stamp board to push down the stamp during operation of completion to the cloth, second driving motor drive connecting rod lapse, because press platen sliding connection in stamp board, be equipped with the connecting pin on the stamp board, and press the pinhole that is equipped with on the stamp board and connects round pin shape size looks adaptation, be equipped with damping spring on the connecting pin outer wall, press the in-process that the stamp board pushed down according to the stamp board, because damping spring's existence, can cushion partly push down the impact force, can avoid because the stamp board pushes down the in-process because the too big condition that leads to the pattern to warp of impact force appears.

Drawings

Fig. 1 is a schematic structural diagram of a double-station semi-automatic printing machine according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a double-station semi-automatic printing machine according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of a sliding base in a double-station semi-automatic printing machine according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of a connection base in a double-station semi-automatic printing machine according to an embodiment of the present invention.

Detailed Description

As shown in fig. 1-4, a double-station semi-automatic printing machine comprises a working platform 1 for placing cloth to be processed, an equipment base 2 fixedly connected to the working platform 1, a printing plate 3 for processing cloth, and a transmission device 4 for moving the printing plate 3, the double-station semi-automatic printing machine further comprises a control device 5 for controlling the position of the printing plate 3 and a feeding device 6 for feeding, the control device 5 comprises a PLC controller 7, a position sensor 8 for detecting the position of the printing plate 3, and a feedback element for feeding information obtained by the position sensor 8 back to the PLC control element, the working platform 1 is provided with two stations, the shape and size of each station is matched with the shape and size of the printing plate 3, the feeding device 6 comprises a feeding disc 9, a rotating shaft 10 positioned at the bottom of the feeding disc 9, and a rotating motor 11 for driving the rotating shaft 10 to rotate, four stations with the same size are arranged on the feeding disc 9.

When the cloth is required to be printed, firstly, the cloth is put on each station on the feeding disc 9, then the PLC 7 controls the transmission device 4 to drive the printing plate 3 to move to the accurate station position, when the printing work is finished, the position sensor 8 senses that the printing plate 3 contacts one side of the equipment base 2, an electric signal is sent to the feedback element, the feedback element transmits the electric signal to the PLC 7, the PLC 7 controls the printing plate 3 to move to the next station, when the cloth of two stations on the working platform 1 finishes the printing work, the PLC 7 controls the rotating motor 11 to rotate 180 degrees, so that the cloth on the other two unprocessed stations on the feeding disc 9 is processed, a worker can take down the processed cloth at the moment, and then, a new cloth to be processed is put on the station, therefore, the processing efficiency can be greatly improved, the machine does not need to be stopped when the cloth is disassembled and assembled, the processing work and the disassembling and assembling work can be carried out simultaneously, and the processing efficiency is further improved.

Transmission 4 is including being fixed in the cross axle sliding element 12 of equipment base 2, sliding connection in the sliding base 13 of cross axle sliding element 12 and the first driving motor 14 that is used for driving 13 lateral motion of sliding base, printing plate 3 swing joint is in sliding base 13, is equipped with on the sliding base 13 to be used for driving printing plate 3 at the second driving motor 15 of vertical direction motion, be equipped with the slip track 16 of vertical direction on the sliding base 13, printing plate 3 can slide along the slip track 16 direction.

Because the transmission device 4 comprises a transverse-axis sliding element 12 fixed on the equipment base 2, a sliding base 13 connected to the transverse-axis sliding element 12 in a sliding manner, and a first driving motor 14 for driving the sliding base 13 to move transversely, the sliding base 13 can drive the printing plate 3 to move transversely, and because the sliding base 13 is provided with a vertical sliding rail 16, and the sliding base 13 is provided with a second driving motor 15 for driving the printing plate 3 to move vertically, the printing plate 3 can slide along the sliding rail 16.

Position sensors 8 are respectively arranged on the left side and the right side of the printing plate 3, when the sliding base 13 contacts the equipment base 2, the position sensors 8 send electric signals to the feedback element, and the PLC 7 controls the first driving motor 14 to rotate reversely.

Because the left side and the right side of the printing plate 3 are respectively provided with the position sensors 8, when the sliding base 13 contacts the equipment base 2, the position sensors 8 send electric signals to the feedback element, and the PLC 7 controls the first driving motor 14 to rotate reversely, so that the position accuracy of the printing plate 3 during processing can be ensured, and the product attractiveness is ensured.

The inside fretwork of sliding base 13, slip track 16 sets up in sliding base 13 inner wall, be equipped with connection base 17 between sliding base 13 and the stamp board 3, connection base 17 includes sliding connection in sliding base 13's connecting rod 18 and fixed connection in the pressure board 19 of connecting rod 18, the shape size looks adaptation of the shape size of connecting rod 18 and sliding base 13 fretwork part, press board 19 sliding connection in stamp board 3, be equipped with connecting pin 20 on the stamp board 3, be equipped with the pinhole 21 with the big or small looks adaptation of connecting pin 20 shape on the pressure board 19, be equipped with damping spring 22 on the connecting pin 20 outer wall.

When the stamp work of cloth is accomplished to the needs with stamp plate 3 pushing down, second driving motor 15 drive connecting rod 18 slides down, because press plate 19 sliding connection in stamp plate 3, be equipped with connecting pin 20 on stamp plate 3, and be equipped with the pinhole 21 with the connecting pin 20 shape size looks adaptation on the press plate 19, be equipped with damping spring 22 on the connecting pin 20 outer wall, press the in-process that the stamp plate 19 pushed down to stamp plate 3, because damping spring 22's existence, can cushion partly push down the impact force, can avoid because stamp plate 3 pushes down the in-process because the too big condition that leads to the pattern to warp of impact force appears.

Claims

1. The utility model provides a half automatic calico printing machine in duplex position, is including the equipment base that is used for placing work platform, fixed connection in work platform of treating the processing cloth, the printing plate that is used for processing the cloth and the transmission that is used for removing the printing plate, its characterized in that: the utility model provides a semi-automatic calico printing machine in duplex position is still including the controlling means who is used for controlling the calico printing plate position and the feed arrangement who is used for the feeding, controlling means includes the PLC controller, is used for detecting the position sensor of calico printing plate position and is used for feeding back the feedback component of PLC control component with the information feedback that position sensor obtained, the last two stations that are equipped with of work platform, the shape size of every station and the shape size looks adaptation of calico printing plate, feed arrangement includes the feeding dish, is located the rotation axis of feeding dish bottom and is used for driving the rotatory rotating electrical machines of rotation axis, be equipped with four stations that the size is the same on the feeding dish.

2. The double-station semi-automatic printing machine according to claim 1, characterized in that: the transmission is including the cross axle sliding element who is fixed in the equipment base, sliding connection in cross axle sliding element's sliding base and the first driving motor who is used for driving sliding base lateral motion, stamp board swing joint is in sliding base, and the last second driving motor who is used for driving the stamp board and moves in vertical direction that is equipped with of sliding base, the last slip track that is equipped with vertical direction of sliding base, the stamp board can slide along slip track direction.

3. The double-station semi-automatic printing machine according to claim 2, characterized in that: the left side and the right side of the printing plate are respectively provided with a position sensor, when the sliding base contacts the equipment base, the position sensors send electric signals to the feedback element, and the PLC controller controls the first driving motor to rotate reversely.

4. The double-station semi-automatic printing machine according to claim 2, characterized in that: the inside fretwork of sliding base, the slip track sets up in the sliding base inner wall, be equipped with connection base between sliding base and the stamp board, connection base includes sliding connection in sliding base's connecting rod and fixed connection in the press board of connecting rod, the shape size of connecting rod and the shape size looks adaptation of sliding base fretwork part, press board sliding connection in stamp board, be equipped with the connecting pin on the stamp board, be equipped with the pinhole with the shape size looks adaptation of connecting pin on the press board, be equipped with damping spring on the connecting pin outer wall.