CN115214242A - Digital permeation injection device and method for fluff - Google Patents

Abstract

The invention discloses a fluff digital osmotic injection device and a fluff digital osmotic injection method, which comprise a rack, and a transmission device, a spraying device and a control device which are arranged on the rack, wherein the rack is used for realizing the spraying process of white gray fabric 1, the transmission device is used for realizing the movement of the gray fabric, the spraying device 4 is used for realizing the spraying of the sizing agent of the white gray fabric, and the control device is used for realizing the spraying control of the white gray fabric and is respectively connected with the transmission device and the spraying device. According to the technical scheme, the automatic spraying of the white grey cloth is realized through the matching between the transmission device and the spraying device which are integrated on the horizontal rack, meanwhile, the spraying setting of various different cloths is realized through the control of the control device on the transmission device and the spraying device, the spraying mode is set, so that the sprayed residual materials flow into the recovery disc for secondary utilization, the spraying cost is greatly saved, and the spraying efficiency is improved.

Description

Digital permeation injection device and method for fluff

Technical Field

The invention relates to the technical field of textile printing, in particular to a digital penetration and injection device and method for fluff.

Background

The data show that the printing method of the fabrics such as textiles and the like in the prior art mainly adopts printing machines such as rotary screen printing, flat screen printing, roller printing and the like for printing. The printing methods have the defects of long time consumption, complicated color and the like for preparing the printing paste, waste materials can be generated in the color mixing and beating process to cause sewage, and the screen cloth of the circular screen printing machine and the screen printing machine consumes long time in the screen manufacturing process and is complicated in screen manufacturing. Similarly, the roller printing machine engraves negative lines (or positive lines) on a metal roller, the net making process is time-consuming, and the net making is complex. The screens or printing rollers are arranged on a printing machine, the color matching is troublesome and easy to run out in the printing process of multi-color register, in addition, in the printing process, due to the screen pressure of a circular screen and a flat screen and the pressure of a roller pattern roller, slurry permeates into a transmission belt of the printing machine through fabrics, the sewage quantity for cleaning the guide belt is increased, after the printing is finished, the screens and the pattern roller are required to pass through a cleaning link, a large amount of sewage is generated after the cleaning, the sewage treatment cost is very high, and the adverse effect is realized on the environmental protection.

Chinese patent document CN108819463B discloses a "printing system". The drying mechanism comprises a printing mechanism and is arranged above the printing mechanism, the printing mechanism comprises a base, a panel arranged on the base, an adjusting mechanism arranged on the base and connected to the panel, and a template arranged on the panel in a sliding mode, and the drying mechanism comprises a hanging bracket arranged above the base and a drying assembly arranged on the hanging bracket. The technical scheme has the advantages of single function, low automation degree and low production efficiency.

Disclosure of Invention

The invention mainly solves the technical problems of single function, low automation degree and low production efficiency of the original technical scheme, and provides a digital infiltration spraying device and a digital infiltration spraying method for villi.

The technical problem of the invention is mainly solved by the following technical scheme:

a digital osmotic jet device for fluff, comprising:

the frame is used for realizing the spraying process of the grey cloth;

the transmission device is used for realizing the movement of the grey cloth and is fixedly connected with the rack;

the spraying device is used for spraying the size of the white grey cloth and is fixedly connected with the rack;

and the control device is used for realizing the spraying control of the white grey cloth and is respectively connected with the transmission device and the spraying device.

The automatic spraying of the white grey cloth is realized through the cooperation between the transmission device and the spraying device which are integrated on the horizontal rack, and meanwhile, the spraying setting of various different cloth materials is realized through the control of the transmission device and the spraying device by the control device, so that the spraying efficiency is improved.

Preferably, the rack comprises a horizontal table top and a suspension bracket arranged above the horizontal table top, and the upper surface of the horizontal table top is provided with a spraying device. The vertical transmission of the grey cloth is realized through the suspension bracket, so that the redundant sizing agent is collected by gravity for recycling.

Preferably, the transmission device comprises a cloth guide roller arranged at one end of the horizontal table top, a first transmission roller arranged below the horizontal table top, a main transmission roller arranged at the other end of the horizontal table top and a transmission motor connected with the main transmission roller through a transmission belt, and the cloth guide roller is arranged on the upper surface of the horizontal table top. The main driving roller and a driving motor connected with the main driving roller through a driving belt are used for providing power, and the cloth guide roller and the first driving roller are used for enabling the grey cloth to smoothly enter the driving mechanism for driving.

Preferably, the transmission device further comprises a guide roller arranged on the suspension bracket, a second transmission roller and a third transmission roller are arranged on the lower surface of the horizontal table board below the vertical position of the guide roller, and the second transmission roller and the third transmission roller are symmetrical along the guide roller. The grey cloth passes through the second driving roller, the third driving roller and the guide roller arranged on the suspension bracket in sequence, so that the vertical transmission of the grey cloth is realized, the deposition of the slurry is avoided, the spraying is more uniform, and the redundant slurry is collected by means of gravity to be recycled.

Preferably, the spraying device comprises a spraying gun, a spraying gun frame and a rack, the spraying gun is connected with the rack through the spraying gun frame, the rack is fixedly connected with the upper surface of a horizontal table top of the rack, and the rack is arranged perpendicular to the moving direction of the grey cloth. The two spray guns are controlled by a PLC, and the spray guns are driven by a motor, matched with a gear and a rack and transversely moved back and forth to spray the thickening agent.

Preferably, the spraying device further comprises a scanning device, a slurry supplementing constant-pressure tank and a diaphragm pump, wherein the scanning device and the spray gun face to a vertical plane where the guide roller is located, and the slurry supplementing constant-pressure tank and the diaphragm pump are sequentially connected with the spray gun. The constant pressure is kept in the pulp supplementing constant pressure tank, and the air pressure is 0.4Mpa, so that the spraying effect is ensured; simultaneously, the automatic detection device is used for pulp supplement of the constant-pressure tank, so that a certain amount of pulp is always kept in the constant-pressure tank. The slurry is conveyed to a diaphragm pump, and then conveyed to a constant pressure tank by the diaphragm pump, wherein the pressure is 0.5-0.7Mpa. The scanning device and the spray gun face the vertically-driven grey cloth, so that uniform spraying and scanning are facilitated.

Preferably, the control device comprises a PLC control module, a storage module, a communication module and an acquisition module, and the PLC control module is respectively connected with the storage module, the communication module and the acquisition module. The PLC control module controls slurry spraying, the storage module stores historical parameters, the communication module realizes remote control, and the acquisition module acquires sensor information to ensure stable work.

Preferably, the acquisition module comprises air pressure sensors respectively arranged in the slurry-supplementing constant-pressure tank and the diaphragm pump, and a liquid level sensor arranged in the slurry-supplementing constant-pressure tank. And (4) supplementing slurry to the constant-pressure tank according to the information acquired by the liquid level sensor, and ensuring the pressure stability and accuracy through the air pressure sensor.

Preferably, the upper surface of the horizontal table top below the guide roller is provided with a residual material recycling disc, the residual material recycling disc is arranged between the guide roller and the second driving roller, and the residual material recycling disc is provided with a gravity sensor. After the information collected by the gravity sensor reaches a threshold value, the worker is reminded to recover the slurry, the slurry is recycled, and the spraying cost is saved.

A method of operation for a fluff-based digital osmotic jet engine, comprising the steps of:

s1, allowing the gray fabric to enter a spraying device and enter a transmission device through a fabric guide roller and a first transmission roller;

s2, the main driving roller pulls the grey cloth to move to a specified position according to the parameters;

s3, starting a diaphragm pump to supply slurry;

s4, the air pressure sensor collects air pressure to meet the requirement and then the spray gun is started;

s5, stopping spraying after the scanning of the white blank cloth by the scanning device is finished;

s6, reminding recovery after the data collected by the gravity sensor on the excess material recovery disc reaches a threshold value.

The beneficial effects of the invention are: the automatic spraying of the white grey cloth is realized through the cooperation between the transmission device and the spraying device which are integrated on the horizontal rack, meanwhile, the spraying setting of various different cloths is realized through the control of the control device on the transmission device and the spraying device, the spraying mode is set, the sprayed excess materials flow into the recovery disc for secondary utilization, the spraying cost is greatly saved, and the spraying efficiency is improved.

Drawings

Fig. 1 is a schematic connection structure of the present invention.

Fig. 2 is a flow chart of the present invention.

In the figure, 1 grey cloth, 2.1 cloth guide rollers, 2.2 first driving rollers, 2.3 second driving rollers, 2.4 third driving rollers, 3 excess material recovery discs, 4 spraying devices, 5 guide rollers, 6 main driving rollers and 7 driving motors are arranged.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Example (b): as shown in fig. 1, the digital fluff infiltration spraying apparatus and method for the present embodiment includes a frame, and a transmission device, a spraying device, and a control device that are arranged on the frame, where the frame is used to implement a spraying process of the grey cloth 1, the transmission device is used to implement movement of the grey cloth, the spraying device 4 is used to implement spraying of a slurry on the grey cloth, and the control device is used to implement spraying control of the grey cloth, and is respectively connected to the transmission device and the spraying device. The automatic spraying of the grey cloth is realized through the cooperation between the transmission device and the spraying device which are integrated on the horizontal rack, and meanwhile, the spraying setting of various different fabrics is realized through the control of the transmission device and the spraying device by the control device, so that the spraying efficiency is improved.

The frame comprises a horizontal table top and a suspension bracket arranged above the horizontal table top, and the upper surface of the horizontal table top is provided with a spraying device 4. The vertical transmission of the grey cloth is realized through the suspension bracket, so that the redundant sizing agent is collected by gravity for recycling. The control device comprises a PLC control module, a storage module, a communication module and an acquisition module, wherein the PLC control module is respectively connected with the storage module, the communication module and the acquisition module. The PLC control module controls slurry spraying, the storage module stores historical parameters, the communication module achieves remote control, and the acquisition module acquires sensor information to ensure stable work. The acquisition module comprises air pressure sensors respectively arranged in the slurry supplementing constant pressure tank and the diaphragm pump and a liquid level sensor arranged in the slurry supplementing constant pressure tank. And (3) the constant-pressure tank is replenished with slurry according to the information acquired by the liquid level sensor, and the pressure is ensured to be stable and accurate through the air pressure sensor.

The transmission device comprises a cloth guide roller 2.1 arranged at one end of the horizontal table top, a first transmission roller 2.2 arranged below the horizontal table top, a main transmission roller 6 arranged at the other end of the horizontal table top and a transmission motor 7 connected with the main transmission roller 6 through a transmission belt, wherein the cloth guide roller 2.1 is arranged on the upper surface of the horizontal table top. The main driving roller and a driving motor connected with the main driving roller through a driving belt are used for providing power, and the cloth guide roller and the first driving roller are used for enabling the grey cloth to smoothly enter the driving mechanism for driving. The transmission device further comprises a guide roller 5 arranged on the suspension bracket, the lower surface of the horizontal table top below the vertical lower part of the guide roller 5 is provided with a second driving roller 2.3 and a third driving roller 2.4, and the second driving roller 2.3 and the third driving roller 2.4 are symmetrical along the guide roller 5. The grey cloth passes through the second driving roller, the third driving roller and the guide roller arranged on the suspension bracket in sequence, so that the vertical transmission of the grey cloth is realized, the deposition of the slurry is avoided, the spraying is more uniform, and the redundant slurry is collected by means of gravity to be recycled. The horizontal mesa upper surface of the vertical below department of deflector roll 5 is equipped with clout and retrieves dish 3, clout is retrieved dish 3 and is set up between deflector roll 5 and second driving roller 2.3, be equipped with gravity sensor on the clout is retrieved dish 3. After the information collected by the gravity sensor reaches a threshold value, the worker is reminded to recover the slurry, the slurry is recycled, and the spraying cost is saved.

The spraying device 4 comprises a spraying gun, a spraying gun frame and a rack, the spraying gun is connected with the rack through the spraying gun frame, the rack is fixedly connected with the upper surface of a horizontal table top of the rack, and the rack is perpendicular to the moving direction of the grey cloth. The two spray guns are controlled by a PLC, and the spray guns are driven by a motor, matched with a gear and a rack and transversely moved back and forth to spray the thickening agent. Spraying device 4 still includes scanning device, mends thick liquid constant voltage jar and diaphragm pump, scanning device and spray gun are towards the vertical plane at 5 places of deflector roll, mend thick liquid constant voltage jar and diaphragm pump and link to each other with the spray gun in proper order. The constant pressure is kept in the pulp supplementing constant pressure tank, and the air pressure is 0.4Mpa, so that the spraying effect is ensured; simultaneously, the automatic detection device is used for supplementing slurry to the constant-pressure tank, so that a certain amount of slurry is always kept in the constant-pressure tank. The slurry is conveyed to a diaphragm pump, and then conveyed to a constant pressure tank by the diaphragm pump, wherein the pressure is 0.5-0.7Mpa. The scanning device and the spray gun face the vertically-driven grey cloth, so that uniform spraying and scanning are facilitated.

A method of operation for a fluff-based digital osmotic jet engine, as shown in fig. 2, comprising the steps of:

s1, the gray fabric 1 enters a spraying device and enters a transmission device through a fabric guide roller 2.1 and a first transmission roller 2.2; s2, a main driving roller 6 pulls the grey cloth 1 to move to a specified position according to parameters;

s3, starting a diaphragm pump to supply slurry;

s4, the air pressure sensor collects air pressure and starts the spray gun after the air pressure meets the requirement;

s5, stopping spraying after the scanning of the white grey cloth 1 by the scanning device is finished;

s6, reminding recovery after the data collected by the gravity sensor on the excess material recovery tray 3 reaches a threshold value.

Work flow

1. The grey cloth enters an injection system and enters a conveying mechanism through a cloth guide roller and a first transmission roller;

2. the main driving roller pulls the grey cloth to move to a specified position according to the parameters;

3. starting the diaphragm pump; the flow is set according to the technological requirements of the product

4. Opening an air pressure source of the spray gun; 0.4Mpa

5. The WA model 200-1.5 spray gun starts to work;

6. and starting the automatic scanning mechanism, stopping air supply after the magnetic gear pump stops supplying slurry for 1 second after the automatic scanning mechanism reaches the end position, and circulating the steps.

Technical requirements

pH value: 6.5-7, solid content: 95-98%, virgin stock viscosity: 20000-25000cps, and the viscosity of the thickener is tested by stirring after adding certain tap water: 1800-1900cps, which can be uniformly sprayed on the white Brassica fiber surface by a spraying system;

setting different grey cloth replacing quantities according to the gram weight of the grey cloth: minimum 30%, maximum 60%;

in the process of replacing the size, the grey cloth maintains the original fiber direction through pretreatment, and the spraying uniformity and the printing definition are ensured.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments, or alternatives may be employed, by those skilled in the art, without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the terms transmission, spraying device, etc. are used more herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to the spirit of the present invention.

Claims (10)

1. A digital osmotic jet device for fluff, comprising:

the frame is used for realizing the spraying process of the grey cloth (1);

the transmission device is used for realizing the movement of the grey cloth and is fixedly connected with the rack;

the spraying device (4) is used for spraying the size of the white grey cloth and is fixedly connected with the rack;

and the control device is used for realizing the spraying control of the grey cloth and is respectively connected with the transmission device and the spraying device.

2. A digital infiltration blasting apparatus for fluff, according to claim 1, characterized in that the frame comprises a horizontal table and a suspension frame arranged above the horizontal table, the upper surface of the horizontal table being provided with a spraying device (4).

3. The digital infiltration spraying device for villi, as recited in claim 2, characterized in that the transmission device comprises a cloth guide roller (2.1) arranged at one end of the horizontal table top, a first transmission roller (2.2) arranged below the horizontal table top, a main transmission roller (6) arranged at the other end of the horizontal table top and a transmission motor (7) connected with the main transmission roller (6) through a transmission belt, wherein the cloth guide roller (2.1) is arranged on the upper surface of the horizontal table top.

4. The digital infiltration spray device for villi and villi is characterized in that the transmission device further comprises a guide roller (5) arranged on the suspension bracket, the lower surface of the horizontal table top vertically below the guide roller (5) is provided with a second transmission roller (2.3) and a third transmission roller (2.4), and the second transmission roller (2.3) and the third transmission roller (2.4) are symmetrical along the guide roller (5).

5. A digital infiltration spray device for fluff which is used according to claim 4, characterized in that the spray device (4) comprises a spray gun, a spray gun frame and a rack, the spray gun is connected with the rack through the spray gun frame, the rack is fixedly connected with the upper surface of the horizontal table top of the frame, and the rack is arranged perpendicular to the moving direction of the grey cloth.

6. A digital infiltration spray device for fluff, according to claim 5, characterized in that said spraying device (4) also comprises a scanning device, a constant pressure tank for slurry supply and a diaphragm pump, said scanning device and said spray gun being directed towards the vertical plane on which the guide roller (5) is located, said constant pressure tank for slurry supply and diaphragm pump being in turn connected to the spray gun.

7. The digital infiltration spray device for piles and piles according to claim 1, wherein the control device comprises a PLC control module, a storage module, a communication module and a collection module, and the PLC control module is respectively connected with the storage module, the communication module and the collection module.

8. The digital infiltration spray device of fluff type according to claim 7, wherein the collection module comprises air pressure sensors respectively arranged in the slurry supplementing constant pressure tank and the diaphragm pump, and a liquid level sensor arranged in the slurry supplementing constant pressure tank.

9. The digital infiltration spraying device for villi, as recited in claim 1, characterized in that a remainder recovery disk (3) is arranged on the upper surface of the horizontal table-board vertically below the guide roller (5), the remainder recovery disk (3) is arranged between the guide roller (5) and the second driving roller (2.3), and a gravity sensor is arranged on the remainder recovery disk (3).

10. The operating method for the digital infiltration blasting apparatus of fluff type according to claim 8, characterized in that it comprises the following steps:

s1, the grey cloth (1) enters a spraying device and enters a transmission device through a cloth guide roller (2.1) and a first transmission roller (2.2);

s2, a main driving roller (6) pulls the grey cloth (1) to move to a specified position according to parameters;

s3, starting a diaphragm pump to supply slurry;

s4, the air pressure sensor collects air pressure to meet the requirement and then the spray gun is started;

s5, stopping spraying after the scanning of the white grey cloth (1) by the scanning device is finished;

s6, the gravity sensor on the excess material recovery disc (3) is used for reminding recovery after the data collected by the gravity sensor reaches a threshold value.

Images