CN211643620U - Rotary printing rotary disc device - Google Patents

Abstract

The utility model relates to a carousel device is printed to rotation, including the gyration dish subassembly, be equipped with a plurality of stations along circumference on the gyration dish subassembly, install the template subassembly that is used for the clamping T-shirt on every station, the structure of gyration dish subassembly is: the positioning device comprises a fixedly installed positioning disk, wherein a guide groove is formed in one circle of the circumferential side surface of the positioning disk, a main shaft assembly is arranged in the middle of the positioning disk, and a rotary disk parallel to the positioning disk is installed on the main shaft assembly; and mounting through holes are uniformly formed along one circle of the circumference of the rotary disc, and the template assembly is arranged in the mounting through holes in a penetrating manner through the rotary shaft assembly. The plurality of template assemblies of the utility model are simultaneously positioned at different processing stations, so that a plurality of T-shirts can be processed simultaneously, thereby greatly improving the production efficiency; the rotary disc completes one circle of rotation, and each template component completes the whole printing process, so that the guess is convenient and the efficiency is high.

Description

Rotary printing rotary disc device

Technical Field

The utility model belongs to the technical field of fabric inkjet printing device technique and specifically relates to a carousel device is printed to rotation.

Background

In the prior art, a plurality of devices with different functions are generally arranged in a factory building to form a linear production line according to a process flow in the inkjet printing (digital printing) process production of the T-shirt, namely, a plurality of devices with different functions and independent from each other are used for carrying out color fixing, ink jetting, sizing and other process operations on the T-shirt, an operator is required to be arranged on each device for operation, and manual transfer and transmission among work stations where different devices are located are required to be completed, so that the operation is inconvenient, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The applicant aims at the defects in the prior art and provides a rotary printing turntable device with a reasonable structure, and the whole process of digital printing is completed by one device, so that continuous automatic production is realized, and the production efficiency is greatly improved.

The utility model discloses the technical scheme who adopts as follows:

the utility model provides a carousel device is printed to rotation, includes the gyration dish subassembly, be equipped with a plurality of stations along circumference on the gyration dish subassembly, install the template subassembly that is used for the clamping T-shirt on every station, the structure of gyration dish subassembly is: the positioning device comprises a fixedly installed positioning disk, wherein a guide groove is formed in one circle of the circumferential side surface of the positioning disk, a main shaft assembly is arranged in the middle of the positioning disk, and a rotary disk parallel to the positioning disk is installed on the main shaft assembly; and mounting through holes are uniformly formed along one circle of the circumference of the rotary disc, and the template assembly is arranged in the mounting through holes in a penetrating manner through the rotary shaft assembly.

As a further improvement of the above technical solution:

the structure of the template component is as follows: the tray is characterized by comprising a tray, wherein a positioning frame is arranged at the opening at the top of the tray and is rotatably connected with the positioning frame, a raised detachable supporting plate is arranged in the tray of the inner ring of the positioning frame, gaps are formed between the bottom of the supporting plate and the tray at the periphery, the supporting plate is embedded into the positioning frame through the rotation of the positioning frame, and therefore the opening of the tray is closed or opened.

The structure of the rotating shaft assembly is as follows: the rotary shaft is arranged in the mounting through hole in a penetrating mode through a shaft sleeve and is connected with a fixing frame fixedly connected to one end of the tray through a bearing device; a connecting rod shaft axially sliding along the inner cavity of the rotating shaft is arranged in the rotating shaft in a penetrating manner, a compression spring is sleeved on the connecting rod shaft, one end of the compression spring is abutted against the end wall of the inner cavity, and the other end of the compression spring is fixed through a nut screwed on the connecting rod shaft; one end of the connecting rod shaft is hinged with one end of the positioning frame through a connecting rod, the other end of the connecting rod shaft is provided with a cam piece, and the cam piece is provided with a sliding bearing which slides along the guide groove.

And a plurality of positioning holes matched with the end part of the connecting rod shaft are uniformly arranged in the guide groove of the positioning disc along the circumferential direction.

The outer ring of the rotary disc is provided with an outer gear ring, the outer gear ring is externally meshed with a gear, the gear is in transmission connection with a driving device, and the rotary disc is driven to rotate around the main shaft assembly.

A spraying and shaping mechanism is installed on one side of the rotary disc assembly, and an ink-jet printing mechanism is arranged above the spraying and shaping mechanism; the execution end of the spraying and shaping mechanism moves along the radial direction of the rotary disc assembly and is matched with the template assembly at one station to preprocess the T-shirt; and the executing end of the ink-jet printing mechanism moves along the axial direction of the rotary disc component and is matched with the template component at another station to print and shape the T-shirt.

The structure of the spraying and shaping mechanism is as follows: the first transverse linear guide rail is positioned in a plane parallel to the rotary disc assembly and arranged along a direction parallel to the radial direction of the rotary disc assembly; a guide rail plate sliding along the first transverse linear guide rail is installed on the first transverse linear guide rail, a vertical linear guide rail is vertically arranged on the guide rail plate, and a heating plate installation plate and a spray joint installation plate sliding along the vertical linear guide rail are installed on the vertical linear guide rail.

The guide rail plate is in transmission connection with a first driving motor through a first belt transmission mechanism; the heating plate mounting plate is in transmission connection with a second driving motor through a second belt transmission mechanism.

The structure of the ink-jet printing mechanism is as follows: the ink-jet printing head device comprises a longitudinal linear guide rail which is horizontally arranged on one side of a rotary disc component through a rack and is perpendicular to a first transverse linear guide rail, a guide pillar lifter which slides along the longitudinal linear guide rail is arranged on the longitudinal linear guide rail, a second transverse linear guide rail which is parallel to the first transverse linear guide rail is arranged above the guide pillar lifter, and an ink-jet printing head mounting platform is arranged on the second transverse linear guide rail in a sliding mode.

The utility model has the advantages as follows:

the utility model has compact and reasonable structure and convenient operation, a plurality of template components are arranged on the rotary disc component, and the processing of clamping, pretreatment, ink-jet printing and drying and color fixing of the T-shirt can be finished by rotating a circle by utilizing circumferential rotation, thereby finishing the processing at one time, reducing the procedures of transmission and circulation and optimizing the process flow; the plurality of template assemblies are simultaneously positioned at different processing stations, so that a plurality of T-shirts can be processed simultaneously, and the production efficiency is greatly improved;

the utility model utilizes the sliding bearing arranged on the cam component to move along the guide groove of the positioning disk, so as to ensure that the rotating working surface is stressed stably in the rotating process of the rotating disk;

the size of the supporting plate of the template component can be changed according to the size of clothes, the clamping is convenient, the positioning frame can be opened and closed relative to the rotation of the tray, the part which does not need to be printed is hidden by utilizing the gap between the tray and the supporting plate, and then the outer edge of the part which needs to be printed is positioned by utilizing the positioning frame; when the positioning frame is closed, the compression spring tightly pushes one end of the continuous rotating shaft to prevent the positioning frame from being opened; when the positioning frame is opened, the connecting rod shaft needs to be inserted into the positioning hole of the positioning plate in a backward movement mode at a specific station, and therefore misoperation of the positioning frame in the working process can be effectively prevented.

The utility model discloses an ink jet printing mechanism, spraying forming mechanism pass through rack-mount in gyration dish subassembly one side, and corresponding execution end removes through linear guide and prints or the spraying, and is efficient.

Drawings

Fig. 1 is a schematic view of the three-dimensional structure of the present invention installed in cooperation with an inkjet printing mechanism and a spray shaping mechanism.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is another view of fig. 1.

Fig. 4 is a front view of fig. 2.

Fig. 5 is a schematic structural view of the rotary disk of the present invention.

Fig. 6 is a schematic structural view of the positioning frame of the template assembly according to the present invention in a closed state.

Fig. 7 is a schematic structural view showing the opened state of the positioning frame of the formwork assembly according to the present invention (with the shaft sleeve and the pivot removed).

Fig. 8 is a sectional view of the opened state of fig. 6.

Fig. 9 is a schematic structural view of the spraying and setting mechanism of the present invention.

Fig. 10 is another view of fig. 9.

Fig. 11 is a schematic structural view of the present invention after the spray setting mechanism and the ink-jet printing mechanism are removed.

Fig. 12 is a schematic structural view of the ink jet printing mechanism of the present invention.

Wherein: 1. a rotatable disk assembly; 2. a template assembly; 3. an ink jet printing mechanism; 4. a spraying and shaping mechanism; 5. a rotary disk; 6. an outer ring gear; 7. positioning a plate; 8. a rotating shaft assembly; 9. a spindle assembly; 10. a first transverse linear guide; 11. a guide rail plate; 12. a second belt drive mechanism; 13. a vertical linear guide rail; 14. a heating plate mounting plate; 15. a spray joint mounting plate; 16. a first belt drive mechanism; 17. a second drive motor; 18. a first drive motor; 19. a longitudinal linear guide rail; 20. a support plate; 21. a positioning frame; 22. a tray; 23. a connecting rod; 24. a fixed mount; 30. a guide post lifter; 31. a second transverse linear guide; 32. an inkjet printhead mounting platform; 33. a frame; 40. a spindle assembly; 51. mounting a through hole; 71. a guide groove; 72. positioning holes; 81. a shaft sleeve; 82. a rotating shaft; 83. a cam member; 84. a link shaft; 85. a sliding bearing; 86. compressing the spring.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1, the rotary printing turntable device of the present embodiment includes a rotary disk assembly 1, wherein a plurality of stations are arranged on the rotary disk assembly 1 along the circumferential direction, and a template assembly 2 for clamping a T-shirt is mounted on each station; a spraying and shaping mechanism 4 is arranged on one side of the rotary disc component 1, and an ink-jet printing mechanism 3 is arranged above the spraying and shaping mechanism 4; the execution end of the spraying and shaping mechanism 4 moves along the radial direction of the rotary disc component 1 and is matched with the template component 2 at one station to preprocess the T-shirt; and the execution end of the ink-jet printing mechanism 3 moves along the axial direction of the rotary disc component 1 and is matched with the template component 2 at another station, and the T-shirt is printed and shaped.

As shown in fig. 2 to 5, the structure of the rotating disc assembly 1 is: the device comprises a positioning disk 7 fixedly installed, wherein a circle of the circumferential side surface of the positioning disk 7 is provided with a guide groove 71, the middle part of the positioning disk 7 is provided with a main shaft assembly 9, and a rotary disk 5 arranged in parallel with the positioning disk 7 is installed on the main shaft assembly; the template assembly 2 is arranged in the installation through holes 51 through the revolving shaft assembly 8.

As shown in fig. 6 to 8, the structure of the template assembly 2 is: the tray 22 is provided with a positioning frame 21 rotatably connected with the top opening of the tray 22, a raised detachable supporting plate 20 is arranged in the tray 22 positioned at the inner ring of the positioning frame 21, gaps are formed between the bottom and the periphery of the supporting plate 20 and the tray 22, and the supporting plate 20 is embedded into the positioning frame 21 through the rotation of the positioning frame 21, so that the opening of the tray 22 is closed or opened.

The structure of the rotating shaft assembly 8 is as follows: comprises a rotating shaft 82 which is arranged in the installation through hole 51 through a shaft sleeve 81, and the rotating shaft 82 is connected with a fixed frame 24 fixedly connected with one end of the tray 22 through a bearing device; a connecting rod shaft 84 sliding along the axial direction of the inner cavity of the rotating shaft 82 is arranged in the rotating shaft 82 in a penetrating mode, a compression spring 86 is sleeved on the connecting rod shaft 84, one end of the compression spring 86 abuts against the end wall of the inner cavity, and the other end of the compression spring is fixed through a nut screwed on the connecting rod shaft 84; the link shaft 84 has one end hinged to one end of the positioning frame 21 via the link 23 and the other end provided with a cam member 83, and the cam member 83 is provided with a sliding bearing 85 sliding along the guide groove 71.

The cam member 83 and the sliding bearing 85 ensure that the turntable 5 is rotated smoothly without tilting and shifting.

As shown in fig. 4, a plurality of positioning holes 72 that engage with the end of the link shaft 84 are uniformly provided in the guide groove 71 of the positioning plate 7 in the circumferential direction.

The supporting plate 20 can be replaced according to the size of the T-shirt to be printed, is convenient to clamp and is suitable for printing T-shirts of different sizes. The positioning frame 21 can rotate relative to the tray 22 to open and close, the part which does not need to be printed is hidden by utilizing the gap between the tray 22 and the supporting plate 20, and then the outer edge of the part which needs to be printed is positioned by utilizing the positioning frame 21; when the positioning frame 21 is closed, the compression spring 86 tightly pushes the connecting rotating shaft 84 towards one end (the end close to the tray) to prevent the positioning frame 21 from being opened; at a specific station (a position where the positioning hole 72 is arranged in the guide groove 71 of the positioning plate 7), the positioning frame 21 can be opened, the connecting rod shaft 84 is driven by the connecting rod 23 to move backwards and be inserted into the positioning hole 72, and if the positioning frame is not arranged at the specific station (the positioning hole 72 is arranged in the guide groove 71), namely, the connecting rod shaft 84 has no space for moving backwards, so that misoperation of the positioning frame 21 in the working process is effectively prevented.

The outer ring of the rotary disk 5 is provided with an outer gear ring 6, the outer gear ring 6 is externally meshed with a gear 40, and the gear 40 is in transmission connection with a driving device to drive the rotary disk 5 to rotate around the spindle assembly 9. The driving device can adopt a motor and the like.

As shown in fig. 9 and 10, the structure of the spray setting mechanism 4 is: the device comprises a first transverse linear guide rail 10 which is horizontally arranged, wherein the first transverse linear guide rail 10 is positioned in a plane parallel to the rotary disk assembly 1 and is arranged along the direction parallel to the radial direction of the rotary disk assembly 1; the first horizontal linear guide rail 10 is provided with a guide rail plate 11 sliding along the first horizontal linear guide rail, the guide rail plate 11 is vertically provided with a vertical linear guide rail 13, and a heating plate mounting plate 14 and a spray joint mounting plate 15 sliding along the vertical linear guide rail are arranged on the vertical linear guide rail.

The guide rail plate 11 is in transmission connection with a first driving motor 18 through a first belt transmission mechanism 16; the heating plate mounting plate 14 is in transmission connection with a second driving motor 17 through a second belt transmission mechanism 12.

As shown in fig. 11 and 12, the ink jet printing mechanism 3 has a structure in which: the device comprises a longitudinal linear guide rail 19 which is horizontally arranged on one side of a rotary disc assembly 1 through a rack 33 and is perpendicular to a first transverse linear guide rail 10, a guide post lifter 30 which slides along the longitudinal linear guide rail 19 is arranged on the longitudinal linear guide rail, a second transverse linear guide rail 31 which is parallel to the first transverse linear guide rail 10 is arranged above the guide post lifter 30, and an ink jet printing head mounting platform 32 is arranged on the guide post lifter in a sliding manner.

The printing method using the rotary printing turntable device of the embodiment is as follows:

evenly be equipped with four stations along circumference on the gyration dish subassembly 1, template subassembly 2 on four stations is corresponding to accomplishing four kinds of processes respectively: clamping, preliminary treatment, printing, stoving fixation, the different processes in the technological process are accomplished simultaneously to the template subassembly 2 of every station, and the technological process that every template subassembly 2 was accomplished in the process of gyration dish 5 rotation round includes the following step:

the first step is as follows: clamping: when the template assembly 2 is in the clamping position, the positioning frame 21 can be opened, the T-shirt is placed in the tray 22, the area to be printed is spread on the upper surface of the supporting plate 20, the part not to be printed is plugged into a gap formed by the bottom of the supporting plate 20 and the tray 22 from the periphery of the supporting plate, then the positioning frame 21 is closed, and the edge of the part to be printed is tightly pressed on the template assembly 2;

the second step is that: pretreatment: when the template assembly 2 with the clamped T-shirt rotates to a pretreatment position along with the rotary disc 5, the heating plate mounting plate 14 and the spray joint mounting plate 15 are respectively provided with the heating plate and the spray joint, the spray joint and the heating plate are equidistant and synchronously move along with the spray joint mounting plate 15 and the heating plate mounting plate 14 along the vertical linear guide rail 13 to adjust the height, the guide rail plate 11 moves along the first transverse linear guide rail 10, so that the pretreatment agent is sprayed and the T-shirt on the template assembly 2 is heated, and after the pretreatment is finished, the spray joint and the heating plate are reset;

the third step: ink-jet printing: when the template assembly 2 with the preprocessed T-shirt is rotated to a printing position along with the rotary disc 5, the ink-jet printing head is installed on the ink-jet printing head installation platform 32, the height of the second transverse linear guide rail 31 is adjusted by the guide pillar lifter 30, and the ink-jet printing head slides along the second transverse linear guide rail 31 along with the ink-jet printing head installation platform 32, so that the printing of the T-shirt on the template assembly 2 is completed;

the fourth step: drying and fixing color: when the template component 2 with the T-shirt printed by ink jet rotates to a drying position along with the rotary disc 5, a drying and heating device (not shown in the figure) is used for drying, shaping and color fixing the T-shirt;

the fifth step: and (4) discharging the dried and fixed T-shirt at the clamping position, simultaneously clamping a new T-shirt again, and repeating the first step to the fourth step.

The above description is for the purpose of explanation and not limitation of the invention, which is defined in the claims, and any modifications may be made within the scope of the invention.

Claims (5)

1. A rotary printing turntable device is characterized in that: the T-shirt clamping device comprises a rotary disc assembly (1), wherein a plurality of stations are arranged on the rotary disc assembly (1) along the circumferential direction, and a template assembly (2) for clamping a T-shirt is mounted on each station; the structure of the rotary disc component (1) is as follows: the device comprises a positioning disk (7) which is fixedly installed, wherein a guide groove (71) is formed in one circle of the circumferential side surface of the positioning disk (7), a main shaft assembly (9) is arranged in the middle of the positioning disk (7), and a rotary disk (5) which is parallel to the positioning disk (7) is installed on the main shaft assembly; and mounting through holes (51) are uniformly formed in one circle along the circumference of the rotary disc (5), and the template component (2) is arranged in the mounting through holes (51) in a penetrating manner through the rotary shaft component (8).

2. The rotary printing turret apparatus of claim 1, wherein: the structure of the template component (2) is as follows: including tray (22), tray (22) top opening part is equipped with rather than rotating the locating frame (21) of being connected, is located in tray (22) of locating frame (21) inner circle, is equipped with one and fills up detachable backup pad (20) of high, backup pad (20) bottom and all around and tray (22) between be formed with gapped, rotatory through locating frame (21), imbed backup pad (20) inside locating frame (21) to make the opening of tray (22) seal or open.

3. The rotary printing turret apparatus of claim 2, wherein: the structure of the rotating shaft assembly (8) is as follows: the rotary shaft (82) penetrates through the installation through hole (51) through a shaft sleeve (81), and the rotary shaft (82) is connected with a fixed frame (24) fixedly connected to one end of the tray (22) through a bearing device;

a connecting rod shaft (84) which axially slides along the inner cavity of the rotating shaft (82) penetrates through the rotating shaft (82), a compression spring (86) is sleeved on the connecting rod shaft (84), one end of the compression spring (86) is abutted against the end wall of the inner cavity, and the other end of the compression spring (86) is fixed through a nut which is screwed on the connecting rod shaft (84); one end of the connecting rod shaft (84) is hinged with one end of the positioning frame (21) through the connecting rod (23), the other end of the connecting rod shaft is provided with a cam piece (83), and the cam piece (83) is provided with a sliding bearing (85) sliding along the guide groove (71).

4. The rotary printing turret apparatus of claim 3 wherein: a plurality of positioning holes (72) matched with the end part of the connecting rod shaft (84) are uniformly arranged in the guide groove (71) of the positioning disc (7) along the circumferential direction.

5. The rotary printing turret apparatus of claim 1, wherein: the outer ring of the rotary disc (5) is provided with an outer gear ring (6), the outer gear ring (6) is externally meshed with a gear (40), the gear (40) is in transmission connection with a driving device, and the rotary disc (5) is driven to rotate around the spindle assembly (9).

Images