阅读说明：本技术 一种自动注染机 (Automatic injection dyeing machine ) 是由 居海滨 段彩莲 丁晓雪 赵楚楚 张锐 何丽芬 于 2021-09-14 设计创作，主要内容包括：本发明提供了一种自动注染机,包括：上料系统(1)：用于将衣物扎捆固定至衣物固定件(101)上；输送系统(2)：用于输送扎捆固定了衣物的衣物固定件(101)；染色系统(3)：用于为衣物固定件(101)上扎捆固定的衣物染色；下料系统(4)：用于输送染色完成后的衣物；染料供应系统(5)：用于为染色系统(3)提供染料。自动控制系统：通过安装在输送系统(2)的椅型支架(204)上的位置传感器感知衣物位置、执行器PLC执行命令,控制输送系统(2)的输送速度、染料供应系统(5)的染料供应量和染色系统(3)的染料喷射时间。本发明可以实现连续生产,提高一致性,提升生产效率、降低劳动强度、减少人工消耗。(The invention provides an automatic injection dyeing machine, which comprises: feeding system (1): for binding and fixing the clothes to the clothes fixing part (101); conveying system (2): a clothing fixing member (101) for conveying the bundled and fixed clothing; dyeing system (3): used for dyeing the clothes tied and fixed on the clothes fixing piece (101); blanking system (4): for conveying the dyed clothes; dye supply system (5): for providing the dyeing system (3) with a dye. An automatic control system: the position of clothes is sensed through a position sensor arranged on a chair-type bracket (204) of the conveying system (2), and an actuator PLC executes commands, so that the conveying speed of the conveying system (2), the dye supply quantity of the dye supply system (5) and the dye spraying time of the dyeing system (3) are controlled. The invention can realize continuous production, improve consistency, improve production efficiency, reduce labor intensity and reduce labor consumption.)

1. An automatic injection dyeing machine, characterized by comprising:

feeding system (1): for binding and fixing the clothes to the clothes fixing part (101);

conveying system (2): a clothing fixing member (101) for conveying the bundled and fixed clothing;

dyeing system (3): used for dyeing the clothes tied and fixed on the clothes fixing piece (101);

blanking system (4): for conveying the dyed clothes;

dye supply system (5): for providing a dyeing system (3) with a dye;

an automatic control system: the position of clothes is sensed through a position sensor arranged on a chair-type bracket (204) of the conveying system (2), and an actuator PLC executes commands, so that the conveying speed of the conveying system (2), the dye supply quantity of the dye supply system (5) and the dye spraying time of the dyeing system (3) are controlled.

2. The automatic injection dyeing machine according to claim 1, characterized in that the feeding system (1) comprises a workbench (102), at least two sets of first limiting blocks (103) are arranged on the upper surface of the workbench (102), each set of first limiting blocks (103) comprises two first positioning vertical plates (104) which are oppositely arranged, and scales (105) are arranged between the two first positioning vertical plates (104).

3. The automatic injection dyeing machine according to claim 2, characterized in that the clothing fixing member (101) comprises a second limiting block (106) adapted to the first limiting block (103), the second limiting block (106) is two second positioning vertical plates (107) arranged oppositely, a plurality of connecting members (108) for bundling clothing are connected between the two second positioning vertical plates (107), and the outer side surfaces of the two second positioning vertical plates (107) are provided with bearing end heads (109).

4. The automatic injection dyeing machine according to claim 3, characterized in that said bearing end (109) is located in the central position of said second positioning riser (107), said second positioning riser (107) protruding from said bearing end (109).

5. An automatic injection-dyeing machine according to claim 4, characterized in that said conveying system (2) comprises 2 clothes conveyors (201), the laundry conveyor (201) comprises a transport mechanism (202) for transporting the laundry fixture (101), a limiting groove used for penetrating through the second positioning vertical plate (107) is arranged on the conveying mechanism (202), the transmission mechanism (202) is arranged on an underframe (203), a chair-type bracket (204) is arranged on the underframe (203), the chair-shaped bracket (204) is positioned above the conveying mechanism (202), a plurality of injection dyeing brackets (205) are arranged on the chair-shaped bracket (204), the injection dyeing support (205) is a U-shaped plate with an upward opening, and the middle part of the U-shaped plate is provided with a long waist-shaped hole (206) for fixing an injection dyeing spray head and a brush head (207) and is provided with scales; scales are arranged on the injection-dyeing spray head and the brush head (207).

6. An automatic injection dyeing machine according to claim 5, characterized in that the conveying mechanism (202) comprises two left and right conveyor belts (2021), the conveyor belts (2021) are connected with a driving roller (2023) driven by a first motor (2022), the conveyor belts (2021) are provided with the limiting grooves; a waste receiving tray (2024) is arranged on the bottom frame (203) below the conveyor belt (2021), and the waste receiving tray (2024) is connected with a factory waste tank through a pipeline.

7. The automatic injection dyeing machine of claim 6, characterized in that the backrests (2041) of the two chair-type supports (204) are arranged close to each other, the top ends of the two backrests (2041) are provided with a plurality of dye distribution pipes (2042), the front parts of the dye distribution pipes (2042) are provided with a main pipe valve (2043), the dye distribution pipes (2042) are provided with a plurality of branch pipes (2044), each branch pipe (2044) is provided with an electromagnetic valve (2045), and the dye passes through the electromagnetic valves (2045) and then is connected with the injection dyeing nozzle by using a pipeline; the dye distribution pipe (2042) is connected with the dye storage barrel (502) through a dye pipeline (501), and a dye pump is arranged on the dye pipeline (501).

8. The automatic dye injection machine according to claim 7, characterized in that a turning mechanism (208) is arranged below the dye distribution pipe (2042), the turning mechanism (208) comprises two opposite turning wheels (2081), the turning wheel (2081) comprises a rotating shaft (2083) driven by a second motor (2082), the rotating shaft (2083) is provided with a plurality of fan-shaped wheel sheets (2084), and a gap (2085) for clamping the clothes fixing member (101) is arranged between two adjacent wheel sheets (2084); the second motor (2082) is fixed on the support frame (2086); the garment fastener (101) comprises a garment shaft or a garment tray; the connecting member (108) comprises a connecting rod or a net; all the main pipe valve (2043), the electromagnetic valve (2045), the dye pump, the conveying mechanism (202) and the turnover mechanism (208) are connected with the automatic control system.

9. An automatic injection-dyeing machine according to claim 1, characterized in that said blanking system (4) comprises a rack or roller (401) for conveying the dyed garments.

10. An automatic injection machine as claimed in claim 7, characterised in that said dye storage vat (502) comprises a plurality of said dye storage vats (502), each said dye storage vat (502) being adapted to store a different type of dye.

Technical Field

The invention belongs to the technical field of tie-dyeing, and particularly relates to an automatic injection dyeing machine.

Background

The tie-dyeing is taken as a traditional process and is listed as the national non-missing protection, the decorative pattern is unique, the faint color is transitional and natural, the individuation is very prominent, and the tie-dyeing is deeply popular with the public. The injection dyeing is a common process in tie dyeing, and after the clothes are tied up, the clothes are injected with pigment in a spraying, injecting, brushing mode and the like, so that the clothes show different effects. The existing injection dyeing is mainly manual, and has the disadvantages of low automation degree, poor consistency, low production efficiency, high labor intensity and high labor consumption.

The automatic injection dyeing machine is provided with the conveying system, the dyeing system, the automatic control system and the like, so that clothes can realize the functions of positioning and moving on the workbench according to a set working mode. Meanwhile, the automatic control system can control the conveying speed, dye spraying time, spraying amount and the like of the workbench in real time and accurately, so that natural tie-dyeing and color-shading effects are achieved, and color cross and natural passing among different colors are avoided. The continuous production can be realized, the consistency is improved, the production efficiency is improved, the labor intensity is reduced, and the labor consumption is reduced.

Disclosure of Invention

The invention aims to overcome the technical defects in the prior art, solve the technical problems and provide an automatic injection dyeing machine, and solve the problems of low automation degree, poor consistency, low production efficiency, high labor intensity and high labor consumption of manual injection dyeing.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

an automatic injection dyeing machine comprising:

a feeding system: for securing the garment bundle to the garment holder;

a conveying system: a clothing fixing member for conveying the bundle of clothing fixed thereto;

a dyeing system: the dyeing machine is used for dyeing the clothes bundled and fixed on the clothes fixing piece;

a blanking system: for conveying the dyed clothes;

dye supply system: for providing a dye to the dyeing system;

an automatic control system: the position of clothes is sensed by a position sensor arranged on a chair-type bracket of the conveying system, and an actuator PLC executes commands to control the conveying speed of the conveying system, the dye supply quantity of the dye supply system and the dye spraying time of the dyeing system.

The garment fastener includes a garment shaft or a garment tray.

The feeding system comprises a workbench, at least two groups of first limiting blocks are arranged on the upper surface of the workbench, each group of first limiting blocks comprises two first positioning vertical plates which are oppositely arranged, and scales are arranged between the first positioning vertical plates.

The clothes fixing part comprises a second limiting block which is used for being matched with the first limiting block, the second limiting block is two second positioning vertical plates which are arranged oppositely, a plurality of connecting pieces used for bundling clothes are connected between the second positioning vertical plates, each connecting piece comprises a connecting rod or a net, and the outer side faces of the second positioning vertical plates are provided with bearing end heads.

The bearing end is located at the center of the second positioning vertical plate, and the second positioning vertical plate protrudes out of the bearing end.

The conveying system comprises 2 clothes conveyors, each clothes conveyor comprises a conveying mechanism for conveying the clothes fixing pieces, a limiting groove for penetrating through the second positioning vertical plate is formed in each conveying mechanism, each conveying mechanism is arranged on an underframe, a chair-shaped support is arranged on each underframe and is positioned above each conveying mechanism, a plurality of injection-dyeing supports are arranged on each chair-shaped support, each injection-dyeing support is a U-shaped plate with an upward opening, and long-waist-shaped holes for fixing an injection-dyeing spray head and a brush head are formed in the middle of each U-shaped plate and are provided with scales; scales are arranged on the injection-dyeing spray head and the brush head.

The conveying mechanism comprises two conveying belts arranged on the left and right, the conveying belts are connected with a driving roller driven by a first motor, and the conveying belts are provided with the limiting grooves; and a waste receiving tray is arranged on the bottom frame below the conveyor belt and is connected with a factory waste tank through a pipeline.

The backrest of the two chair-type supports are arranged close to each other, a plurality of dye distribution pipes are arranged at the top ends of the two backrests, a main pipe valve is arranged at the front parts of the dye distribution pipes, a plurality of branch pipes are arranged on the dye distribution pipes, each branch pipe is provided with an electromagnetic valve, and dye passes through the electromagnetic valves and then is connected with an injection-dyeing nozzle by using a pipeline; the dye distribution pipe is connected with the dye storage barrel through a dye pipeline, and a dye pump is arranged on the dye pipeline.

A turnover mechanism is arranged below the dye distribution pipe and comprises two opposite turnover wheels, each turnover wheel comprises a rotating shaft driven by a second motor, a plurality of fan-shaped wheel sheets are arranged on the rotating shaft, and a gap for clamping the clothes fixing piece is arranged between every two adjacent wheel sheets; the second motor is fixed on the support frame.

All the main pipe valve, the electromagnetic valve, the dye pump, the transmission mechanism and the turnover mechanism are connected with the automatic control system.

The blanking system comprises a material rack or a roller way for conveying the dyed clothes.

The dye storage barrel comprises a plurality of dye storage barrels, and each dye storage barrel is used for storing different dyes.

The invention has the beneficial effects that:

1. the bundled clothes shafts or clothes trays continuously advance and dye on the automatic injection dyeing machine, and the continuous injection dyeing of the clothes can be realized.

2. The invention reduces the labor intensity of injection-dyeing operators, and the operators need to continuously spray and brush dyes during manual injection-dyeing, thereby having high labor intensity and low production efficiency. After the parameters are adjusted, the feeding and the blanking are carried out only by operators.

3. The automatic injection dyeing machine improves the injection dyeing quality. When the manual operation is carried out, a plurality of people are matched to paint and inject the dye, the color is dark and light, the distribution is uneven, and the color is dark and light, the distribution is uniform and the effect is consistent.

The automatic injection dyeing machine provided by the invention is provided with a conveying system, a dyeing system, an automatic control system and the like, so that clothes can realize positioning and moving functions on a workbench according to a set working mode. Meanwhile, the automatic control system can control the conveying speed, dye spraying time, spraying amount and the like of the workbench in real time and accurately, so that natural tie-dyeing and color-shading effects are achieved, and color cross and natural passing among different colors are avoided. The continuous production can be realized, the consistency is improved, the production efficiency is improved, the labor intensity is reduced, and the labor consumption is reduced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of a workbench according to the present invention;

FIG. 3 is a schematic view of the construction of the garment fastener of the invention;

FIG. 4 is a schematic structural view of the conveying system of the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 1;

FIG. 6 is a schematic structural view of the injection-dyed stent of the present invention.

Detailed Description

The automatic injection dyeing machine of the invention is further described in detail with reference to the accompanying drawings and the specific implementation method.

As shown in fig. 1, an automatic injection dyeing machine includes a conveying system 2, a dyeing system 3, an automatic control system, a feeding system 1, a discharging system 4, a dye supply system 5, and the like.

The conveying system 2 is responsible for conveying the clothes, and includes a power driving unit (i.e., the first motor 2022), a conveyor belt 2021, a guiding and positioning device (i.e., a limiting groove), a turnover mechanism 208, a fixing table (i.e., the bottom frame 203), a related bracket (e.g., the chair-type bracket 204), and other components.

The dyeing system 3 is used for dyeing the clothes and comprises a dye supply container (i.e., a dye storage barrel 502), a pipeline, a valve bank (i.e., a main pipe valve 2043 and an electromagnetic valve 2045), a pump (i.e., a dye pump), a dyeing nozzle, a dyeing brush and other parts (generally called the dyeing nozzle and the brush head 207). The automatic control system senses the position of clothes through a position sensor arranged on the chair-shaped support 204, an actuator PLC executes a program command, and controls the conveying speed, the dye supply amount and the dye spraying time according to the process requirements, so that the aim of replacing manual injection dyeing is fulfilled. The automatic control system comprises a PLC, a position sensor, an air switch, a relay, a control cabinet and other parts.

The automatic injection dyeing machine is divided into 4 areas according to functions: a loading area, a dyeing injection area, a blanking area and a dye supply area.

As shown in fig. 2, the feeding area is provided with a workbench 102 for clothes pretreatment, and the workbench 102 is provided with a first stopper 103 and scales 105. The first limiting block 103 comprises two first positioning vertical plates 104 which are oppositely arranged, and scales (105) are arranged between the two first positioning vertical plates 104.

At least two groups of first limiting blocks 103 are arranged on the workbench 102 and used for continuously bundling and preprocessing clothes.

As shown in fig. 3, the clothes holder 101 designed for injection dyeing is provided with a second stopper 106, and the second stopper 106 of the clothes holder 101 is matched and positioned with the workbench 102 for clothes pretreatment, so that the clothes can be fixed at the set position of the clothes holder 101. After the clothes are tied and fixed, the clothes are transferred to an injection dyeing area. The table 102 may be placed near the automatic padding machine or in other locations. The garment fastener is preferably a garment shaft or a garment tray.

The second limiting block 106 is two second positioning vertical plates 107 which are arranged oppositely, a plurality of connecting pieces 108 for bundling clothes are connected between the two second positioning vertical plates 107, and the outer side surfaces of the two second positioning vertical plates 107 are provided with bearing end heads 109. The connecting member 108 is preferably a connecting rod or a mesh.

The bearing end 109 is located at the center of the second positioning riser 107, and the second positioning riser 107 protrudes out of the bearing end 109.

As shown in fig. 4, the injection dyeing area has 2 clothes conveyors 201 (including a front conveyor and a rear conveyor which are located at both sides of the turnover mechanism 208 and are used for injection dyeing the front and the back of clothes respectively), 1 turnover mechanism 208, 2 sets of injection dyeing equipment and 1 set of dye distribution equipment. The bundled clothes fixing member 101 is placed on the front conveyor, and the clothes conveyor 201 is provided with a corresponding limiting groove which is matched with the second limiting block 106 of the clothes fixing member 101, so that the clothes fixing member 101 cannot move left and right and can only move forwards along with the conveyor belt 2021. A chair-shaped bracket 204 is arranged above the clothes conveyor 201, and an injection dyeing nozzle and a brush head 207 are fixed on the chair-shaped bracket 204. When the clothes pass through the clothes conveyor 201, the dye injection nozzles spray dyes of different colors to corresponding positions of the clothes. According to the process requirement, brush heads are arranged at different parts, and the brush heads can simulate the effect of manually brushing clothes, so that the dye can be fully impregnated in the clothes. Scales are arranged on the injection-dyeing spray head and the brush head 207, the installation sizes of the injection-dyeing spray head and the brush head 207 are the same, and the injection-dyeing spray head and the brush head can be installed on the same injection-dyeing bracket 205; the installation height of the injection-dyeing spray head and the brush head 207 can be conveniently and accurately adjusted according to the process requirement. The injection dyeing bracket 205 is provided with a long waist-shaped hole 206 and scales, and the installation positions of the injection dyeing spray head and the brush head 207 can be conveniently and accurately adjusted according to the process requirement. The nozzle fixing frame (i.e. the injection dyeing support 205) is installed on a chair-shaped support 204 connected with the underframe 203 of the clothes conveyor 201, the front end and the rear end of the seat surface of the chair-shaped support 204 are provided with installation supports, long waist holes are formed in the installation supports, the installation position of the injection dyeing support 205 can move in the width direction of the clothes conveyor 201, the two ends of the injection dyeing support 205 are provided with installation holes, and the installation holes are connected with the long waist holes through bolts. The middle parts of the two clothes conveyors 201 are provided with a turnover mechanism 208, and the turnover mechanism 208 can turn over the clothes fixing piece 101. The other side of the garment is injection dyed in the same manner. The excess dye falls to the waste receiving tray 2024 at the lower part of the clothes conveyor 201 during the dyeing process and is guided to the factory waste pool through a pipeline.

Specifically, as shown in fig. 5, the conveying system 2 includes 2 clothes conveyors 201, each clothes conveyor 201 includes a conveying mechanism 202 for conveying the clothes fixing member 101, a limiting groove for passing through the second positioning vertical plate 107 is disposed on each conveying mechanism 202, each conveying mechanism 202 is disposed on the bottom frame 203, a chair-type bracket 204 is mounted on the bottom frame 203, and the chair-type bracket 204 is located above the conveying mechanism 202.

As shown in fig. 6, a plurality of injection dyeing brackets 205 are arranged on the chair-shaped bracket 204, the injection dyeing brackets 205 are U-shaped plates with upward openings, and the middle parts of the U-shaped plates are provided with long waist-shaped holes 206 for fixing injection dyeing nozzles and brush heads 207 and are provided with scales; scales are arranged on the injection-dyeing nozzle and the brush head 207.

The conveying mechanism 202 comprises two conveying belts 2021 arranged on the left and the right, the conveying belts 2021 are connected with a driving roller 2023 driven by a first motor 2022, and the conveying belts 2021 are provided with limit grooves; a waste receiving tray 2024 is arranged on the bottom frame 203 below the conveyor belt 2021, and the waste receiving tray 2024 is connected with a factory waste pool through a pipeline.

The backrests 2041 of the two chair-shaped supports 204 are arranged close to each other, the top ends of the two backrests 2041 are provided with a plurality of dye distribution pipes 2042, the front parts of the dye distribution pipes 2042 are provided with a main pipe valve 2043, the dye distribution pipes 2042 are provided with a plurality of branch pipes 2044, each branch pipe 2044 is provided with an electromagnetic valve 2045, and dye passes through the electromagnetic valves 2045 and is connected with the injection-dyeing nozzles by using a pipeline; the dye distribution pipe 2042 is connected with a dye storage barrel 502 through a dye pipeline 501, and a dye pump is arranged on the dye pipeline 501; all of the manifold valve 2043, solenoid valve 2045, dye pump, canting mechanism 208 and transport mechanism 202 are connected to an automated control system.

A turnover mechanism 208 is arranged below the dye distribution pipe 2042, the turnover mechanism 208 comprises two opposite turnover wheels 2081, the turnover wheels 2081 comprise a rotating shaft 2083 driven by a second motor 2082, a plurality of fan-shaped wheel sheets 2084 are arranged on the rotating shaft 2083, and a gap 2085 for clamping the clothes fixing piece 101 is arranged between every two adjacent wheel sheets 2084; the second motor 2082 is fixed on the support bracket 2086.

Preferably, the number of the wheel sheets 2084 is 4.

After the two sides are completely dyed, the clothes fixing piece 101 is taken down and placed on a material rack or a roller way 401 of a blanking area, and the clothes can be sleeved with a sheath to prevent the colors of the clothes from being mutually contaminated to cause color cross.

The dye supply area is provided with dye storage barrels 502 of different types and dye pumps, the dye pumps convey dyes to the dye distribution pipes 2042 through dye pipelines 501, the front parts of the dye distribution pipes 2042 are provided with a main pipe valve 2043, and the main pipe valve 2043 can be an electromagnetic valve or a manual opening and closing valve. The dye distributing pipe 2042 is provided with a plurality of branch pipes 2044, each branch pipe 2044 is provided with an electromagnetic valve 2045 (which can be manually opened or closed), dye passes through the electromagnetic valve 2045 and then is connected with an injection-dyeing nozzle by using a pipeline, and the dye flows out of the injection-dyeing nozzle and is injected onto the clothes fixing piece 101.

In the description provided herein, numerous specific details are set forth. It is understood, however, that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

While the invention has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this description, will appreciate that other embodiments can be devised which do not depart from the scope of the invention as described herein. Furthermore, it should be noted that the language used in the specification has been principally selected for readability and instructional purposes, and may not have been selected to delineate or circumscribe the inventive subject matter. Accordingly, many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the disclosure. The disclosure of the present invention is intended to be illustrative, but not limiting, of the scope of the invention.

The above description is only of the preferred embodiments of the present invention, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the invention and these are intended to be within the scope of the invention.