CN111791604A

CN111791604A - Green's weaving digital inkjet printing machine

Info

Publication number: CN111791604A
Application number: CN202010608329.1A
Authority: CN
Inventors: 王云力
Original assignee: Guangzhou Jiuyuetian Decoration Engineering Co ltd
Current assignee: Dezhou Fangxing Fiber Co ltd
Priority date: 2020-06-30
Filing date: 2020-06-30
Publication date: 2020-10-20
Anticipated expiration: 2040-06-30
Also published as: CN111791604B

Abstract

The invention discloses a green environment-friendly textile digital ink-jet printing machine which structurally comprises a processing cabin and a conveying cabin, wherein the outer end face of the processing cabin is connected with the conveying cabin in an embedded manner, and the outer contour of the left end face of the conveying cabin is arranged on the lower surface of the outer end of the processing cabin in a welded manner; the processing cabin includes stamp mechanism, the pinch roller, supporting roller, the conveyer belt, the scanner, stamp mechanism inlays and installs on the medial extremity face in the processing cabin, the pinch roller is located stamp mechanism under, the conveyer belt is being inlayed and is being wrapped up in supporting roller's the outside, the pinch roller is being connected in the laminating of conveyer belt lower extreme face, elasticity through its inside two-way spring makes the buffer head move inwards, shrink when the spring through stamp plate extrusion its upper end forms when keeping balance, can be when meetting thick cloth, through mutually supporting between two springs and between the stamp plate, avoid like the stamp plate on the equipment in the past can't change the decline extrusion distance and the irregular stamp of infiltration formation.

Description

Green's weaving digital inkjet printing machine

Technical Field

The invention belongs to the field of digital printing, and particularly relates to an environment-friendly textile digital ink-jet printing machine.

Background

The textile digital ink-jet printing machine is a device which is matched with an ink rolling plate and a printing plate and is installed together by utilizing the working principle of a copying machine, textile cloth is transmitted into the device through a conveyor belt, and the textile cloth is scanned and colored by utilizing the matching of scanning equipment and the printing plate.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: because cloth need extrude cloth through cylinder and stamp board and color when printing pigment, and the stamp board of equipment directly drives through electric putter in the past, and the scanner in the equipment can only scan the area of cloth, when the stamp board upwards extrudeed and color, can with cylinder extrusion processing cloth each other, the density that makes cloth is changed and forms closely laminating, leads to the black pigment can permeate to second layer department, forms irregular stamp with the initial point outdiffusion.

Therefore, a green and environment-friendly textile digital ink-jet printing machine is required to be provided.

Disclosure of Invention

In order to solve above-mentioned technique because cloth need extrude the cloth through cylinder and stamp board when printing pigment and color, and the stamp board of equipment directly drives through electric putter in the past, and the scanner in the equipment can only scan the area of cloth, when the stamp board upwards extrudees and colors, can with cylinder extrusion processing cloth each other, the density that makes cloth is changed and is formed closely laminating, lead to the jet ink color pigment can permeate to second floor department, form the problem of irregular stamp with the initial point outdiffusion.

The invention relates to an environment-friendly textile digital ink-jet printing machine, which is realized by the following specific technical means: the structure of the device comprises a processing cabin and a conveying cabin, wherein the outer end face of the processing cabin is connected with the conveying cabin in an embedded manner, and the outer contour of the left end face of the conveying cabin is installed on the lower surface of the outer end of the processing cabin through welding; the processing cabin includes stamp mechanism, pinch roller, supporting roller, conveyer belt, scanner, stamp mechanism inlays and installs on the medial extremity face in processing cabin, the pinch roller is located stamp mechanism under, the conveyer belt is being inlayed and is being wrapped up in supporting roller's the outside, the pinch roller is being connected in the laminating of conveyer belt lower extreme face, the scanner is located directly over the supporting roller, the pinch roller is upwards jack-up a little with the conveyer belt.

Further, stamp mechanism includes stamp board, electric putter, mosaic block, buffer is being connected in the left and right sides erection joint of stamp board, electric putter is directly over the stamp board, the mosaic block inlays the solid and installs in electric putter lower extreme left and right sides and be connected with the stamp board, buffer is located electric putter under, buffer is equipped with two and symmetrical installation.

Furthermore, buffer includes mosaic block, two-way spring, limiting plate, buffering head, the mosaic block is inlaying and is being connected the stamp board, the inboard terminal surface at the stamp board is installed to the inlay block of two-way spring, the limiting plate passes through the welding and installs the left and right sides at the buffering head, two-way spring bottom end face adopts the design of two springs.

Furthermore, the buffer head comprises a hollow groove, a movable mechanism and a rubber sheet, the hollow groove is uniformly distributed on the outer end face of the rubber sheet, the rubber sheet is uniformly wrapped on the outer side of the movable mechanism and is located right below the movable mechanism, and the rubber sheet is connected in a sectional mode.

Further, the movable mechanism comprises a movable block, an embedding groove, a second movable block and an embedding thread, the movable block is fixedly embedded and installed right above the second movable block, the embedding groove is located right below the second movable block, the outer side of the second movable block is attached to the rubber sheet, the embedding thread is provided with a plurality of threads, and the threads are the same as the diameter of the second embedded block.

Furthermore, the movable block comprises a fixed block, a hollow rubber layer and a connecting block, the fixed block is located right above the hollow rubber layer, the hollow rubber layer is embedded and clamped right above the connecting block, the connecting block is fixedly connected with the second movable block in an embedded mode, and the transverse length of the fixed block is slightly shorter than that of the hollow rubber layer.

Furthermore, the second movable block comprises a second connecting block, a sliding groove and a second mosaic block, the second connecting block is symmetrically arranged on the left side and the right side of the second movable block, the sliding groove is uniformly wrapped on the outer end face of the second movable block, the second mosaic block is embedded and clamped to be connected with the sliding groove, and the second connecting block is provided with two rubber sheets and is connected with the rubber sheets.

Compared with the prior art, the invention has the following beneficial effects:

1. the buffer head is retracted inwards through the elasticity of the bidirectional spring inside the buffer head, the buffer head is retracted when the buffer head is kept balanced and the spring at the upper end of the buffer head is extruded through the printing plate to form, and when thick cloth is met, irregular printing formed by permeation due to the fact that the descending extrusion distance of the printing plate cannot be changed like the printing plate on the conventional equipment is avoided through mutual matching between the two springs and the printing plate.

2. Along with the continuous decline of second movable block, make the sheet rubber form an annular plane gradually, can effectually when receiving the extrusion with the even dispersion of original power on a point to the sheet rubber surface, avoid cloth because of the pressure forms behind the hard piece, make pigment permeate to influence pigment printing's quality.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a green and environment-friendly textile digital ink-jet printing machine.

FIG. 2 is a schematic structural diagram of a processing cabin of the environment-friendly textile digital ink-jet printing machine.

FIG. 3 is a schematic structural diagram of a printing mechanism of the environment-friendly textile digital ink-jet printing machine.

Fig. 4 is a schematic structural diagram of a buffering device of a green and environment-friendly textile digital ink-jet printing machine.

FIG. 5 is a schematic structural diagram of a buffer head of the environment-friendly textile digital ink-jet printing machine.

Fig. 6 is a schematic structural diagram of a movable mechanism of a green and environment-friendly textile digital ink-jet printing machine.

FIG. 7 is a schematic structural diagram of a movable block of the environment-friendly textile digital ink-jet printing machine of the present invention.

FIG. 8 is a schematic structural diagram of a movable block of the environment-friendly textile digital ink-jet printing machine of the present invention.

In the figure: the printing device comprises a processing cabin-1, a conveying cabin-2, a printing mechanism-11, a pressing wheel-12, a supporting roller-13, a conveying belt-14, a scanner-15, a printing plate-111, an electric push rod-112, an embedding block-113, a buffering device-114, an embedding block-4 a, a bidirectional spring-4 b, a limiting plate-4 c, a buffering head-4 d, a hollow groove-4 d1, a moving mechanism-4 d2, a rubber sheet-4 d3, a moving block-2 a, an embedding groove-2 b, a second moving block-2 c, an embedding thread-2 d, a fixed block-2 a1, a hollowed rubber layer-2 a2, a connecting block-2 a3, a second connecting block-2 c1, a sliding groove-2 c2 and a second embedding block-2 c 3.

Detailed Description

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

example 1:

as shown in figures 1 to 4:

the invention provides a green environment-friendly textile digital ink-jet printing machine which structurally comprises a processing cabin 1 and a conveying cabin 2, wherein the outer end face of the processing cabin 1 is connected with the conveying cabin 2 in an embedded mode, and the outer contour of the left end face of the conveying cabin 2 is installed on the lower surface of the outer end of the processing cabin 1 in a welded mode; processing cabin 1 includes stamp mechanism 11, pinch roller 12, supporting roller 13, conveyer belt 14, scanner 15, stamp mechanism 11 inlays and installs on the medial extremity face of processing cabin 1, pinch roller 12 is located stamp mechanism 11 under, the outside of supporting roller 13 is inlayed and is being wrapped up in conveyer belt 14, pinch roller 12 is being connected in the terminal surface laminating under the conveyer belt 14, scanner 15 is located directly over supporting roller 13, pinch roller 12 is with conveyer belt 14 upwards jack-up a little, can make the more abundant extrusion that receives of cloth on the conveyer belt 14 at the stamp in-process.

Wherein, stamp mechanism 11 includes stamp board 111, electric putter 112, mosaic 113, buffer 114, the buffer 114 is being connected in the left and right sides erection joint of stamp board 111, electric putter 112 is directly over stamp board 111, mosaic 113 inlays solid and installs in the electric putter 112 lower extreme left and right sides and is connected with stamp board 111, buffer 114 is located electric putter 112 directly under, buffer 114 is equipped with two and symmetry installations, can effectively guarantee stamp board 111's equilibrium on the way of descending.

Wherein, buffer 114 includes mosaic block 4a, two-way spring 4b, limiting plate 4c, buffering head 4d, mosaic block 4a is inlaying and is being connected stamp board 111 admittedly, the inboard terminal surface at stamp board 111 is installed to the inlay block of two-way spring 4b, limiting plate 4c passes through the welding and installs the left and right sides at buffering head 4d, two-way spring 4b bottom end face adopts the design of two springs, makes its bottom terminal surface form plane, can keep good equilibrium in extrusion process.

The specific use mode and function of the embodiment are as follows:

in the invention, cloth is required to be placed in order and then placed in the conveying cabin 2, the driving belt 14 is driven by the rotation of the supporting roller 13 to convey the cloth, the electric push rod 112 in the printing mechanism 11 is used for pushing the printing plate 111 to downwards extrude the cloth after the cloth is scanned by the scanner 15, the buffer heads 4d are inwards retracted by the elasticity of the bidirectional springs 4b inside the buffer heads after the buffer devices 114 on the left side and the right side of the cloth are preferentially contacted with the cloth, the springs on the upper end of the printing plate 111 are extruded to be contracted while the balance is kept, and when the cloth is thick, the irregular printing formed by permeation due to the fact that the descending extrusion distance of the printing plate cannot be changed like the printing plate on the conventional equipment is avoided through the mutual matching between the two springs and the printing plate.

Example 2:

as shown in fig. 5 to 8: the buffer head 4d comprises a hollow groove 4d1, a movable mechanism 4d2 and a rubber sheet 4d3, the hollow groove 4d1 is uniformly distributed on the outer end face of the rubber sheet 4d3, the rubber sheet 4d3 is uniformly wrapped on the outer side of the movable mechanism 4d2, the rubber sheet 4d3 is located under the movable mechanism 4d2, the rubber sheet 4d3 is connected in a sectional mode, and force can be uniformly transmitted to the surface of a processed object in the extrusion process.

Wherein, the activity mechanism 4d2 includes the movable block 2a, inlays groove 2b, second movable block 2c, inlays screw thread 2d, the movable block 2a is inlayed and is installed directly over second movable block 2c, inlay groove 2b and be located under the second movable block 2c, the second movable block 2c outside is laminated with sheetrubber 4d3 mutually, it is equipped with many screw threads to inlay screw thread 2d, and is the same with second mosaic block 2c3 diameter, can form through the clearance fit in river each other and rotate to it is downward to drive sheetrubber 4d3 spiral, forms the contact surface.

The movable block 2a comprises a fixed block 2a1, a hollowed rubber layer 2a2 and a connecting block 2a3, the fixed block 2a1 is located right above the hollowed rubber layer 2a2, the hollowed rubber layer 2a2 is embedded and clamped right above the connecting block 2a3, the connecting block 2a3 is embedded and connected with a second movable block 2c, the transverse length of the fixed block 2a1 is slightly shorter than that of the hollowed rubber layer 2a2, and the fixed block 2a1 can be downwards sunk into the hollowed rubber layer 2a2 when being extruded.

The second movable block 2c comprises a second connecting block 2c1, a sliding groove 2c2 and a second mosaic block 2c3, the second connecting block 2c1 is symmetrically installed on the left side and the right side of the second movable block 2c, the sliding groove 2c2 is uniformly wrapped on the outer end face of the second movable block 2c, the second mosaic block 2c3 is embedded and clamped with the sliding groove 2c2, the second connecting block 2c1 is provided with two rubber sheets and is connected with the rubber sheet 4d3, and the rubber sheets 4d3 can be driven to rotate simultaneously.

The specific use mode and function of the embodiment are as follows:

according to the invention, when the movable mechanism 4d2 is subjected to extrusion force, the fixed block 2a1 on the upper end face of the movable block 2a can downwards sink into the hollowed rubber layer 2a2, so that the upper end of the movable block forms a plane, then the movable block 2a is utilized to drive the second movable block 2c to downwards move, as the second embedded block 2c3 is embedded and clamped on the embedded thread 2d, the second movable block 2c is driven to rotate in the moving process, so that the rubber sheets 4d3 embedded on the left side and the right side are driven to rotate and extrude, and as the second movable block 2c continuously descends, the rubber sheets 4d3 gradually form an annular block, the original force on one point can be effectively and uniformly dispersed to the surface of the rubber sheets when the extrusion is carried out, and the phenomenon that pigment permeates after the cloth forms a hard block due to the pressure is avoided, so that the quality of pigment printing is influenced.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The green environment-friendly textile digital ink-jet printing machine structurally comprises a processing cabin (1) and a conveying cabin (2), wherein the outer end face of the processing cabin (1) is connected with the conveying cabin (2) in an embedded mode, and the outer contour of the left end face of the conveying cabin (2) is installed on the lower surface of the outer end of the processing cabin (1) through welding; the method is characterized in that:

processing cabin (1) is including stamp mechanism (11), pinch roller (12), supporting roller (13), conveyer belt (14), scanner (15), stamp mechanism (11) are inlayed and are installed on the medial surface of processing cabin (1), pinch roller (12) are located stamp mechanism (11) under, the outside of supporting roller (13) is inlayed and is wrapped up in conveyer belt (14), pinch roller (12) are being connected in the laminating of terminal surface under conveyer belt (14), scanner (15) are located supporting roller (13) directly over.

2. The environment-friendly textile digital ink-jet printing machine according to claim 1, wherein the printing mechanism (11) comprises a printing plate (111), an electric push rod (112), an inlay block (113) and a buffer device (114), the buffer device (114) is mounted and connected on the left side and the right side of the printing plate (111), the electric push rod (112) is located right above the printing plate (111), the inlay block (113) is fixedly mounted on the left side and the right side of the lower end of the electric push rod (112) and connected with the printing plate (111), and the buffer device (114) is located right below the electric push rod (112).

3. The environment-friendly textile digital ink-jet printing machine according to claim 2, wherein the buffering device (114) comprises an inlaying block (4 a), a bidirectional spring (4 b), a limiting plate (4 c) and a buffering head (4 d), the inlaying block (4 a) is fixedly connected with the printing plate (111), the bidirectional spring (4 b) is inlaid and clamped on the inner side end face of the printing plate (111), and the limiting plate (4 c) is welded on the left side and the right side of the buffering head (4 d).

4. A green environment-friendly textile digital ink-jet printing machine as claimed in claim 3, wherein the buffer head (4 d) comprises a hollow groove (4 d 1), a movable mechanism (4 d 2) and a rubber sheet (4 d 3), the hollow groove (4 d 1) is uniformly distributed on the outer end face of the rubber sheet (4 d 3), the rubber sheet (4 d 3) is uniformly wrapped on the outer side of the movable mechanism (4 d 2), and the rubber sheet (4 d 3) is located right below the movable mechanism (4 d 2).

5. The environment-friendly textile digital ink-jet printing machine according to claim 4, wherein the movable mechanism (4 d 2) comprises a movable block (2 a), an embedded groove (2 b), a second movable block (2 c) and an embedded thread (2 d), the movable block (2 a) is embedded and fixedly installed right above the second movable block (2 c), the embedded groove (2 b) is located right below the second movable block (2 c), and the outer side of the second movable block (2 c) is attached to the rubber sheet (4 d 3).

6. A green environment-friendly textile digital ink-jet printing machine according to claim 5, wherein the movable block (2 a) comprises a fixed block (2 a 1), a hollow rubber layer (2 a 2) and a connecting block (2 a 3), the fixed block (2 a 1) is located right above the hollow rubber layer (2 a 2), the hollow rubber layer (2 a 2) is embedded and clamped right above the connecting block (2 a 3), and the connecting block (2 a 3) is embedded and connected with the second movable block (2 c).

7. A green textile digital ink-jet printing machine according to claim 5, wherein the second movable block (2 c) comprises a second connecting block (2 c 1), a sliding groove (2 c 2) and a second mosaic block (2 c 3), the second connecting block (2 c 1) is symmetrically installed at the left side and the right side of the second movable block (2 c), the sliding groove (2 c 2) is uniformly wrapped on the outer side end face of the second movable block (2 c), and the second mosaic block (2 c 3) is connected with the sliding groove (2 c 2) in a mosaic and clamping manner.