CN210591017U

CN210591017U - Full-automatic printing baking line

Info

Publication number: CN210591017U
Application number: CN201921141808.6U
Authority: CN
Inventors: 陈莲根; 谢少凤
Original assignee: Kunshan Hongma Automation Technology Co ltd
Current assignee: Kunshan Hongma Automation Technology Co ltd
Priority date: 2019-07-19
Filing date: 2019-07-19
Publication date: 2020-05-22
Anticipated expiration: 2029-07-19

Abstract

The utility model discloses a full-automatic printing baking line, which comprises a printing machine, a tunnel furnace, a confluence machine and a shunting machine, wherein the printing machine comprises a first printing machine and a second printing machine, the tunnel furnace comprises a first tunnel furnace and a second tunnel furnace, and the confluence machine comprises a first confluence machine and a second confluence machine; one side of the first tunnel furnace is connected with a first feeding converging machine, and the other side of the first tunnel furnace is connected with a discharging diverging machine; the two sides of the first confluence machine are respectively connected with the discharge ends of the first printers at the two sides, the two sides of the flow divider are respectively connected with the feed ends of the second printers at the two sides, the discharge end of the second printer is connected with the second confluence machine, and the second confluence machine is connected with the feed inlet of the second tunnel furnace. The utility model relates to a novelty, convenient to use, easy operation can help reducing the operation personnel, improves the production efficiency of product, reduces the manufacturing cost of enterprise, improves the market competition of enterprise.

Description

Full-automatic printing baking line

Technical Field

The utility model relates to a printing toasts the field, especially relates to a full-automatic printing toasts line.

Background

In the field of printing technology, drying/drying treatment of printed printing materials (such as sheet materials) is required, and in the related art, a tunnel oven is arranged at an output end of a printing device, the tunnel oven is provided with a hot air circulation system, a single-layer conveyor belt and the like, the printing materials printed by the printing device enter a drying channel of the tunnel oven through the single-layer conveyor belt, and the printing materials are dried by hot air flowing in a circulation mode.

The invention patent with the application number of CN201811248376.9 discloses a printing production system, which comprises a multilayer circulating tunnel furnace and a printing machine arranged at the feeding end of the multilayer circulating tunnel furnace, wherein printing materials printed by the printing machine are conveyed to the multilayer tunnel furnace, the multilayer circulating tunnel furnace comprises a shell, a multilayer in-furnace conveying belt and a material transferring mechanical arm, a drying channel is arranged in the shell, the multilayer in-furnace conveying belts are arranged in the drying channel at intervals in the vertical direction, and the material transferring mechanical arm is used for transferring the printing materials among the in-furnace conveying belts on different layers so that the printing materials can be circularly conveyed on the in-furnace conveying belts on different layers. The printing production system can reduce the occupied space of the multilayer circulating tunnel furnace and the printing production system, so that the multilayer circulating tunnel furnace and the printing production system can be suitable for smaller production fields, and the cost can be saved.

The utility model patent with application number CN201821230063.6 discloses a small LCD production line, which comprises a surface pattern printer, a far infrared drying tunnel furnace, a protective film printer, a far infrared drying tunnel furnace, an automatic cutting machine, a large-crack device, a liquid crystal filling device, a sealing machine, a small-crack device, an ultrasonic cleaning machine, a film tearing device, a visual measurement platform, an automatic patch detection machine and an automatic patch machine; the surface pattern printing machine, the far infrared drying tunnel furnace, the protective film printing machine, the far infrared drying tunnel furnace, the automatic cutting machine, the large splinter device, the liquid crystal filling device, the sealing machine, the small splinter device, the ultrasonic cleaning machine, the film tearing device, the visual inspection platform, the automatic patch detection machine and the automatic patch machine are sequentially connected through a transmission belt. The far infrared drying tunnel furnace is provided with a temperature control device, and the temperature is set to be gradually heated to 80 ℃ from the normal temperature and then gradually heated to the normal temperature from 80 ℃. Adopt this utility model's production line, the yields is high, efficient, and is with low costs.

In summary, the existing printing and baking line needs to be matched with more operators for feeding and discharging, and the problems of low production efficiency and high production cost are particularly prominent due to the matching of more operators. Therefore, there is a need for a printing baking line that can improve the production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the above problem that prior art exists, provide a full-automatic printing toasts line, the utility model relates to a novelty, convenient to use, easy operation can help reducing the operation personnel, improves the production efficiency of product, reduces the manufacturing cost of enterprise, improves the market competition of enterprise.

For realizing above-mentioned technical purpose, reach above-mentioned technological effect, the utility model discloses a following technical scheme realizes:

a full-automatic printing baking line comprises a printing machine, a tunnel furnace, a confluence machine and a flow divider, wherein the printing machine comprises a first printing machine and a second printing machine, the tunnel furnace comprises a first tunnel furnace and a second tunnel furnace, and the confluence machine comprises a first confluence machine and a second confluence machine; one side of the first tunnel furnace is connected with a first feeding converging machine, and the other side of the first tunnel furnace is connected with a discharging diverging machine; the two sides of the first confluence machine are respectively connected with the discharge ends of the first printers at the two sides, the two sides of the flow divider are respectively connected with the feed ends of the second printers at the two sides, the discharge end of the second printer is connected with the second confluence machine, and the second confluence machine is connected with the feed inlet of the second tunnel furnace.

Preferably, the confluence machine comprises a confluence rack, a baffle arranged on the confluence rack and transmission assemblies arranged on two sides of the baffle and connected with the discharge end of the printing machine, wherein one side of each transmission assembly is provided with a material taking manipulator connected with the discharge end of the printing machine, and the other side of each transmission assembly is provided with a material feeding assembly connected with the feed port of the tunnel furnace.

Preferably, the conveying assembly comprises a conveying roller arranged on the confluence rack and a driving mechanism for driving the conveying roller; the driving mechanism comprises a driving motor and a driving gear arranged on the driving motor, and the driving gear is connected with a driven gear arranged on one side of the conveying roller; and a driving gear is further arranged on one side of each conveying roller and is connected with a driven gear on the adjacent conveying roller through a chain.

Preferably, the material taking manipulator comprises a base connected with the confluence rack and a sliding block which is arranged on the base and can linearly slide left and right, a support frame is arranged on the sliding block, a transverse support block capable of moving up and down is arranged on one side of the support frame, a connecting block is arranged on the transverse support block, a plurality of material taking suckers are arranged on the connecting block, and the suckers are connected with the suction pipes; a first driving mechanism for driving the sliding block to move left and right is arranged on the base, and a second driving mechanism for driving the transverse supporting block to move up and down is arranged at the top of the supporting frame; the first driving mechanism and/or the second driving mechanism comprise a driving motor, a screw rod and a screw rod nut, the screw rod nut is arranged on the sliding block and/or the transverse supporting block and connected with the screw rod, and the screw rod is connected with a driving shaft on the driving motor through a coupler; and sliding tables are arranged on the sliding blocks and/or the transverse supporting blocks and are connected with sliding grooves arranged on the base and/or the supporting frame.

Preferably, the feeding assembly comprises a fixed block connected with the confluence rack and a feeding rod arranged on the fixed block; the feeding rod comprises a hydraulic telescopic rod or a pneumatic telescopic rod, a piston rod of the hydraulic telescopic rod or the pneumatic telescopic rod is provided with a top block, and an anti-collision rubber pad or a silica gel pad is arranged on the top block.

Preferably, the shunting machine comprises a shunting rack, a baffle arranged on the shunting rack and transmission assemblies arranged on two sides of the baffle, wherein one end of each transmission assembly is connected with a feeding end of the printing machine, and the other end of each transmission assembly is connected with the baffle and a discharge hole of the tunnel furnace.

The utility model has the advantages that:

1. the utility model relates to a novelty, convenient to use, easy operation carry out the material printing through the printing machine that sets up, and carry to the tunnel furnace through the converging machine after the printing and toast the drying, and carry out secondary printing and toast the drying through the reposition of redundant personnel machine reposition of redundant personnel after toasting the drying, thereby help reducing the operating personnel, improve the production efficiency of product, reduce the manufacturing cost of enterprise, improve the market competition of enterprise;

2. the utility model discloses a full-automatic printing toasts line compares with traditional, can effectively reduce 2/3's operation personnel.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood and to be implemented according to the content of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings. The detailed description of the present invention is given by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a schematic structural diagram related to the present invention;

FIG. 2 is a schematic view of a converging machine and a diverging machine according to the present invention;

fig. 3 is a schematic view of a transmission assembly according to the present invention;

fig. 4 is a schematic view of the material taking manipulator according to the present invention.

The reference numbers in the figures illustrate: the system comprises a printing machine 1, a tunnel furnace 2, a converging machine 3, a shunting machine 4, a converging machine frame 5, a baffle 6, a transmission assembly 7, a material taking manipulator 8, a feeding assembly 9, a first driving mechanism 10, a second driving mechanism 11, a shunting machine frame 12, a first printing machine 101, a second printing machine 102, a first tunnel furnace 201, a second tunnel furnace 202, a first converging machine 301, a second converging machine 302, a conveying roller 701, a driving motor 702, a driving gear 703, a driven gear 704, a driving gear 705, a chain 706, a base 801, a sliding block 802, a supporting frame 803, a transverse supporting block 804, a connecting block 805, a suction cup 806, a suction pipe 807, a fixed block 901, a feeding rod 902 and a top block 903.

Detailed Description

The invention is further described with reference to the accompanying drawings:

referring to fig. 1 to 4, a fully automatic printing baking line includes a printing press 1, a tunnel oven 2, a joining machine 3 and a flow divider 4, the printing press 1 includes a first printing press 101 and a second printing press 102, the tunnel oven 2 includes a first tunnel oven 201 and a second tunnel oven 202, and the joining machine 3 includes a first joining machine 301 and a second joining machine 302; one side of the first tunnel furnace 201 is connected with a first feeding converging machine 301, and the other side of the first tunnel furnace is connected with a discharging shunting machine 4; the two sides of the first confluence machine 301 are respectively connected with the discharge ends of the first printing presses 101 at the two sides, the two sides of the diversion machine 4 are respectively connected with the feed ends of the second printing presses 102 at the two sides, the discharge ends of the second printing presses 102 are connected with the second confluence machine 302, and the second confluence machine 302 is connected with the feed inlet of the second tunnel furnace 202. By adopting the technical scheme, the printed materials are transmitted to the first tunnel furnace 201 for baking through the first confluence machine 301 after the materials are printed by the first printing machines 101 on the two sides, the printed materials are transmitted to the second printing machines 102 on the two sides for printing twice through the shunt machine 4 after baking, and the printed materials are transmitted to the second tunnel furnace 202 for baking through the second confluence machine 302.

Preferably, the converging machine 3 comprises a converging rack 5, a baffle 6 arranged on the converging rack 5 and a transmission assembly 7 arranged on two sides of the baffle 6 and connected with the discharge end of the printing machine 1, wherein a material taking manipulator 8 connected with the discharge end of the printing machine 1 is arranged on one side of the transmission assembly 7, and a material feeding assembly 9 connected with the feed inlet of the tunnel furnace 2 is arranged on the other side of the transmission assembly 7. By adopting the technical scheme, the transmission assembly 7 is used for transmitting materials; the material taking manipulator 8 is used for grabbing materials on the printing machine 1 or the transmission assembly 7; the feeding assembly 9 is used for pushing materials.

Preferably, the transport unit 7 includes a transport roller 701 provided on the merge frame 5 and a drive mechanism that drives the transport roller 701; the driving mechanism comprises a driving motor 702 and a driving gear 703 arranged on the driving motor 702, and the driving gear 703 is connected with a driven gear 704 arranged on one side of the conveying roller 701; a driving gear 705 is further provided on one side of the conveying roller 701, and the driving gear 705 is connected to a driven gear 704 of the adjacent conveying roller 701 via a chain 706. By adopting the technical scheme, the driving gear 703 is driven and connected by the driving motor 702, so that the driven gear 704 connected with the driving gear 703 rotates, and the driven gear 704 rotates to drive the connected conveying roller 701 to rotate together; the conveying rollers 701 rotate while driving a driving gear 705 on one side, and the driving gear 705 rotates a driven gear 704 on the adjacent conveying roller 701 via a chain 706, so that the adjacent conveying rollers 701 rotate together.

Preferably, the material taking manipulator 8 comprises a base 801 connected with the confluence rack 5 and a slide block 802 arranged on the base 801 and capable of sliding linearly left and right, wherein a support frame 803 is arranged on the slide block 802, a transverse support block 804 capable of moving up and down is arranged on one side of the support frame 803, a connecting block 805 is arranged on the transverse support block 804, a plurality of suction cups 806 for taking materials are arranged on the connecting block 805, and the suction cups 806 are connected with a suction tube 807; a first driving mechanism 10 for driving the sliding block 802 to move left and right is arranged on the base 801, and a second driving mechanism 11 for driving the transverse supporting block 804 to move up and down is arranged at the top of the supporting frame 803; the first driving mechanism 10 and/or the second driving mechanism 11 comprise a driving motor, a screw rod and a screw rod nut, the screw rod nut is arranged on the sliding block 802 and/or the transverse supporting block 804 and connected with the screw rod, and the screw rod is connected with a driving shaft on the driving motor through a coupler; sliding tables are arranged on the sliding block 802 and/or the transverse supporting block 804 and are connected with sliding grooves arranged on the base 801 and/or the supporting frame 803. By adopting the technical scheme, the driving motor drives the sliding block 802 and/or the transverse supporting block 804 connected with the screw rod nut to move through the screw rod; the sliding block 802 moves to drive the supporting frame 803 and the transverse supporting block 804 on the supporting frame 803 to move left and right together; the lateral support block 804, when moved, moves the attachment block 805 up and down with the suction cups 806 on the attachment block 805.

Preferably, the feeding assembly 9 comprises a fixed block 901 connected with the confluence rack 5 and a feeding rod 902 arranged on the fixed block 901; the feeding rod 902 comprises a hydraulic telescopic rod or a pneumatic telescopic rod, a top block 903 is installed on a piston rod of the hydraulic telescopic rod or the pneumatic telescopic rod, and an anti-collision rubber pad or a silica gel pad is arranged on the top block 903. By adopting the technical scheme, when the material moves to one side of the feeding hole of the baffle 6 or the tunnel furnace 2 through the transmission component 7, the top block 903 connected with the piston rod on the hydraulic telescopic rod or the pneumatic telescopic rod is driven, and the material on the transmission component 7 is pushed to the feeding hole of the tunnel furnace 2 through the top block 903.

Preferably, the shunting machine 4 comprises a shunting rack 12, a baffle 6 arranged on the shunting rack 12 and transmission assemblies 7 arranged on two sides of the baffle, wherein one end of each transmission assembly 7 is connected with the feeding end of the printing machine 1, and the other end of each transmission assembly 7 is connected with the baffle 6 and the discharge hole of the tunnel furnace 2. By adopting the technical scheme, the materials enter the transfer component 7 of the flow divider 4 from the discharge hole of the tunnel furnace 2, and then are transferred to the feed end of the printing machine 1 by the transfer component 7.

Preferably, the roasting line is further provided with a plurality of sensors for sensing the materials. For example, when a printed material is sensed at the discharge end of the printing machine 1, the printed material is grabbed onto the confluence machine 3 by the material fetching manipulator 8, and after the grabbed material is sensed on the confluence machine 3, the transmission component 7 is started to transmit the material to one side of the tunnel furnace 2; when the materials enter the designated area, the materials are pushed to the feeding hole of the tunnel furnace 2 by the feeding component 9.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

In actual use, as shown in fig. 1, an operator puts a product into a designated area of a printing machine, the printing machine automatically picks the product for printing, the product enters a tunnel furnace through a confluence machine after being printed, the product enters a shunting machine after being baked and cured from the tunnel furnace, the printing machine automatically picks the product from the shunting machine for printing, the product enters the tunnel furnace through the confluence machine again after being printed for baking and curing, and therefore multiple times of repeated printing and baking can be performed.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. The utility model provides a full-automatic printing toasts line, includes printing machine (1), tunnel furnace (2), confluence machine (3) and reposition of redundant personnel machine (4), its characterized in that: the printing press (1) comprises a first printing press (101) and a second printing press (102), the tunnel oven (2) comprises a first tunnel oven (201) and a second tunnel oven (202), and the converging machine (3) comprises a first converging machine (301) and a second converging machine (302); one side of the first tunnel furnace (201) is connected with a first feeding converging machine (301), and the other side of the first tunnel furnace is connected with a discharging diverging machine (4); the two sides of the first confluence machine (301) are respectively connected with the discharge ends of the first printing machines (101) on the two sides, the two sides of the shunt machine (4) are respectively connected with the feed ends of the second printing machines (102) on the two sides, the discharge ends of the second printing machines (102) are connected with a second confluence machine (302), and the second confluence machine (302) is connected with the feed inlet of the second tunnel furnace (202).

2. The fully automatic printing baking line of claim 1, wherein: the confluence machine (3) comprises a confluence rack (5), a baffle (6) arranged on the confluence rack (5) and transmission assemblies (7) arranged on two sides of the baffle (6) and connected with the discharge end of the printing machine (1), wherein one side of each transmission assembly (7) is provided with a material taking manipulator (8) connected with the discharge end of the printing machine (1), and the other side of each transmission assembly is provided with a feeding assembly (9) connected with the feed inlet of the tunnel furnace (2).

3. The fully automatic printing baking line of claim 2, wherein: the transmission assembly (7) comprises a conveying roller (701) arranged on the confluence rack (5) and a driving mechanism for driving the conveying roller (701); the driving mechanism comprises a driving motor (702) and a driving gear (703) arranged on the driving motor (702), and the driving gear (703) is connected with a driven gear (704) arranged on one side of the conveying roller (701); and one side of each conveying roller (701) is also provided with a driving gear (705), and the driving gear (705) is connected with a driven gear (704) on the adjacent conveying roller (701) through a chain (706).

4. The fully automatic printing baking line of claim 2, wherein: the material taking mechanical arm (8) comprises a base (801) connected with the confluence rack (5) and a sliding block (802) which is arranged on the base (801) and can slide in a left-right linear mode, a supporting frame (803) is arranged on the sliding block (802), a transverse supporting block (804) capable of moving up and down is arranged on one side of the supporting frame (803), a connecting block (805) is arranged on the transverse supporting block (804), a plurality of sucking discs (806) for taking materials are arranged on the connecting block (805), and the sucking discs (806) are connected with a sucking pipe (807); a first driving mechanism (10) for driving the sliding block (802) to move left and right is arranged on the base (801), and a second driving mechanism (11) for driving the transverse supporting block (804) to move up and down is arranged at the top of the supporting frame (803); the first driving mechanism (10) and/or the second driving mechanism (11) comprise a driving motor, a screw rod and a screw rod nut, the screw rod nut is arranged on the sliding block (802) and/or the transverse supporting block (804) and connected with the screw rod, and the screw rod is connected with a driving shaft on the driving motor through a coupler; and sliding tables are arranged on the sliding blocks (802) and/or the transverse supporting blocks (804), and are connected with sliding grooves arranged on the base (801) and/or the supporting frame (803).

5. The fully automatic printing baking line of claim 2, wherein: the feeding assembly (9) comprises a fixed block (901) connected with the confluence rack (5) and a feeding rod (902) arranged on the fixed block (901); the feeding rod (902) comprises a hydraulic telescopic rod or a pneumatic telescopic rod, a piston rod of the hydraulic telescopic rod or the pneumatic telescopic rod is provided with an ejector block (903), and the ejector block (903) is provided with an anti-collision rubber pad or a silica gel pad.

6. The fully automatic printing baking line of claim 1, wherein: the flow divider (4) comprises a flow dividing rack (12), a baffle (6) arranged on the flow dividing rack (12) and transmission assemblies (7) arranged on two sides of the baffle, one end of each transmission assembly (7) is connected with a feeding end of the printing machine (1), and the other end of each transmission assembly is connected with a discharge hole of the baffle (6) and a discharge hole of the tunnel furnace (2).