CN212456296U - Auxiliary agent conveying system - Google Patents

Abstract

The utility model discloses an auxiliary agent conveying system, include: the system comprises a first terminal, a conveying cabinet, an auxiliary agent barrel, a feeding cabinet and a second terminal; the first terminal is connected with the conveying cabinet and comprises a first processor, a first display screen and a data input device, wherein the first display screen and the data input device are respectively and electrically connected with the processor; the conveying cabinet is connected with the auxiliary agent barrel through a first conveying pipeline, and a first three-way valve is arranged on the first conveying pipeline; the feeding cabinet is connected with a second terminal, and the second terminal comprises a second processor and a second display screen; the second processor is connected with the second display screen; the feeding cabinet is connected with the auxiliary agent barrel through a second transmission pipeline, and a second three-way valve is arranged on the second transmission pipeline. In the process of conveying the auxiliary agent, the full-automatic control can be realized, so that the addition cost of the auxiliary agent is reduced; because no personnel operation is needed, the control precision and the operation efficiency can be improved, the error is reduced, and the cross contamination among the auxiliary agents is avoided.

Description

Auxiliary agent conveying system

Technical Field

The utility model belongs to the technical field of transmission system, especially, relate to an auxiliary agent conveying system.

Background

The addition of a number of auxiliaries is often required during the processing of synthetic dyes, where the dyeing auxiliaries make the dyes easier to process, or improve the properties of the dyes, or protect the dyes during processing. The printing and dyeing auxiliary is an auxiliary used in the process of printing and dyeing the fabric, can improve the printing and dyeing effects, and can be divided into a printing auxiliary and a dyeing auxiliary, and the dyeing auxiliary comprises a leveling agent, a color fixing agent, a dispersing agent, a fluorescent whitening agent, a softener and the like. At present, the method for feeding the auxiliary agent into the printing and dyeing equipment mainly comprises the steps of manually weighing the auxiliary agent and feeding the auxiliary agent into the printing and dyeing equipment, namely, in the addition process of the auxiliary agent, the auxiliary agent to be added is manually selected according to process requirements, and the auxiliary agent is metered by an electronic scale and the like.

The traditional method for adding the auxiliary agents is usually operated manually, the data of all the auxiliary agents needs to be recorded manually, and the problem of high cost exists.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, it is desirable to provide an additive delivery system that can reduce the additive addition cost.

An auxiliary agent conveying system comprises a first terminal, a conveying cabinet, an auxiliary agent barrel, a feeding cabinet and a second terminal; the first terminal is connected with the conveying cabinet and comprises a first processor, a first display screen and a data input device, and the first display screen and the data input device are electrically connected with the processor respectively; the conveying cabinet is connected with the auxiliary agent barrel through a first conveying pipeline, and a first three-way valve is arranged on the first conveying pipeline; the feeding cabinet is connected with the second terminal, and the second terminal comprises a second processor and a second display screen; the second processor is connected with the second display screen; the feeding cabinet is connected with the auxiliary agent barrel through a second transmission pipeline, and a second three-way valve is arranged on the second transmission pipeline.

In one embodiment, the data input device is a code scanner; the code scanner is electrically connected with the first processor and used for scanning the two-dimensional code to obtain the auxiliary agent conveying data from the ERP system and sending the auxiliary agent conveying data to the first display screen for displaying.

In one embodiment, the system further comprises a control cabinet; the control cabinet is arranged below the first terminal and is connected with the first terminal; the control cabinet is internally provided with a PLC (programmable logic controller), and the PLC is connected with the first processor and is used for receiving the auxiliary agent conveying data transmitted by the first processor.

In one embodiment, an air switch, a power switch, a relay, a terminal output module and an electromagnetic valve are further arranged in the control cabinet; the air switch, the power switch, the relay, the terminal output module and the electromagnetic valve are all electrically connected with the PLC.

In one embodiment, the system further comprises a flow meter and a batching motor; one end of the batching motor is connected with the conveying cabinet through the first conveying pipeline; the other end of the batching motor is connected with a third three-way valve through the flowmeter; the flowmeter and the batching motor are electrically connected with the PLC.

In one embodiment, the device further comprises a flushing motor; one end of the flushing motor is connected with the conveying cabinet through the first conveying pipeline; the other end of the flushing motor is connected with the third three-way valve; and a pneumatic valve is arranged on the first transmission pipeline connected with the flushing motor.

In one embodiment, an alarm is arranged on the first terminal; the alarm is electrically connected with the first processor and used for prompting an auxiliary agent error.

In one embodiment, a feeding three-way valve is arranged in the feeding cabinet; the feeding three-way valve is connected with the second processor, and when the auxiliary in the auxiliary barrel is insufficient, the second processor controls the feeding three-way valve to supplement the auxiliary for the auxiliary barrel.

In one embodiment, the second display screen is used for displaying the auxiliary agent data in the auxiliary agent bucket.

In one embodiment, the first processor is further configured to record a delivery condition of the auxiliary agent and transmit the delivery condition to the ERP system.

The auxiliary agent conveying system comprises a first terminal, a conveying cabinet, an auxiliary agent barrel, a feeding cabinet and a second terminal; the first terminal is connected with the conveying cabinet and comprises a first processor, a first display screen and a data input device, wherein the first display screen and the data input device are respectively and electrically connected with the processor; the conveying cabinet is connected with the auxiliary agent barrel through a first conveying pipeline, and a first three-way valve is arranged on the first conveying pipeline; the feeding cabinet is connected with a second terminal, and the second terminal comprises a second processor and a second display screen; the second processor is connected with the second display screen; the feeding cabinet is connected with the auxiliary agent barrel through a second transmission pipeline, and a second three-way valve is arranged on the second transmission pipeline. In the process of conveying the auxiliary agent, the full-automatic control can be realized, so that the addition cost of the auxiliary agent is reduced; because no personnel operation is needed, the control precision and the operation efficiency can be improved, the error is reduced, and the cross contamination among the auxiliary agents is avoided.

Drawings

FIG. 1 is a block diagram of an additive delivery system in one embodiment;

FIG. 2 is a block diagram of an additive delivery system in yet another embodiment;

FIG. 3 is a block diagram of an additive delivery system in another embodiment;

FIG. 4 is a block diagram of an additive delivery system in yet another embodiment;

fig. 5 is a block diagram of an additive delivery system in yet another embodiment.

Detailed Description

For a better understanding of the present invention, the contents of the present invention will be further clarified below with reference to the accompanying drawings and examples, but the present invention is not limited to the following examples.

In one embodiment, as shown in fig. 1, the present invention provides an additive delivery system, which mainly comprises: a first terminal 100, a conveying cabinet 200, an auxiliary agent barrel 300, a loading cabinet 400 and a second terminal 500; the first terminal 100 is connected with the conveying cabinet 200, the first terminal 100 includes a first processor 110, a first display screen 120 and a data input device 130, and the first display screen 120 and the data input device 130 are respectively electrically connected with the first processor 110; the conveying cabinet 200 is connected with the auxiliary agent barrel 300 through a first conveying pipeline 230, and a first three-way valve 232 is arranged on the first conveying pipeline 230; the feeding cabinet 400 is connected with a second terminal 500, and the second terminal 500 comprises a second processor 510 and a second display screen 520; the second processor 510 is connected with the second display screen 520; the feeding cabinet 400 is connected with the auxiliary agent barrel 300 through a second transmission pipeline 430, and a second three-way valve 432 is arranged on the second transmission pipeline 430.

In the embodiment, the first terminal 100 and the second terminal 500 may be, but are not limited to, various personal computers, notebook computers, tablet computers, and the like. The first terminal 100 may include a first processor 110, a first display 120, and a data input device 130, wherein the first processor 110 may be a central processing unit (cpu), or a micro controller unit (mcu), and the first processor 110 may serve as an operation and control core of the first terminal 100. The first display 120 may be electrically connected to the first processor 110, and the first display 120 may be a liquid crystal display, which may be a touch liquid crystal display.

The data input device 130 may be electrically connected to the first processor 110, and the data input device 130 may be used for data input. Specifically, the data input through the data input/output device 130 may be data such as a recipe number, a dye weight, a dye name, an operator, and an operation time. Since the first processor 110 is electrically connected to the data input device 130, the data input device 130 may transmit the input data to the first processor 110, and the first processor 110 may transmit the input data to the first display 120 for display. The first processor 110 may perform calculations and analysis based on the input data.

The delivery cabinet 200 can be used for delivery of the adjuvant; the auxiliary agent bucket 300 may be used to store auxiliary agents, and specifically, the number of the auxiliary agent buckets 300 may be plural, and the kind of the auxiliary agent stored in each auxiliary agent bucket 300 is different. The conveying cabinet 200 can be connected with the additive barrel 300 through a first conveying pipeline 230, a first three-way valve 232 is arranged on the first conveying pipeline 230, and specifically, the first three-way valve 232 can be a three-way pneumatic foot valve. Since the number of agent buckets 300 may be plural, each agent bucket 300 may have a corresponding first transfer line 230, and each first transfer line 230 is provided with a first three-way valve 232. When the additive is transferred, the additive can be transferred from the additive tank 300 through the first three-way valve 232 arranged on the first transfer pipeline 230.

The loading cabinet 400 may be used to load the aid barrels 300, i.e. to add the aid to the respective aid barrel 300. Specifically, the feeding cabinet 400 may be connected to the auxiliary agent bucket 300 through a second transmission pipeline 430, and a second three-way valve 432 is disposed on the second transmission pipeline 430. When the auxiliary agent stored in the auxiliary agent barrel 300 is deficient, the auxiliary agent in the feeding cabinet 400 can be added to the auxiliary agent barrel 300 through the second three-way valve 432 arranged on the second transmission pipeline 430. The loading cabinet 400 can be connected with a second terminal 500, and the second terminal 500 comprises a second processor 510 and a second display screen 520; the second processor 510 is connected to a second display screen 520. In this embodiment, the second display screen 520 may display the auxiliary agents stored in the respective auxiliary agent buckets 300 and the dosage of the auxiliary agents.

In the embodiment, the auxiliary agent conveying process can be fully automatically controlled, so that the addition cost of the auxiliary agent is reduced; because no personnel operation is needed, the control precision and the operation efficiency can be improved, the error is reduced, and the cross contamination among the auxiliary agents is avoided.

As shown in FIG. 2, in one embodiment, data input device 130 is a scanner; the code scanner is electrically connected to the first processor 110, and is configured to scan the two-dimensional code to obtain the auxiliary agent delivery data from the ERP system, and send the auxiliary agent delivery data to the first display screen 120 for display. The auxiliary agent conveying data can comprise data such as a process sheet number, an auxiliary agent weight, an auxiliary agent name, an operator, operation time, conveying weight and the like. In this embodiment, the additive delivery system may further include a control cabinet 600; the control cabinet 600 is disposed below the first terminal 100 and connected to the first terminal 100; the control cabinet 600 is provided with a PLC controller 610, and the PLC controller 610 is connected to the first processor 110 and is configured to receive the auxiliary agent conveying data transmitted by the first processor 110.

Wherein, the control cabinet 600 is also provided with an air switch 620, a power switch 630, a relay 640, a terminal output module 650 and an electromagnetic valve 660; the air switch 620, the power switch 630, the relay 640, the terminal output module 650, and the solenoid valve 660 are all electrically connected to the PLC controller 610. After receiving the auxiliary agent conveying data transmitted by the first processor 110, the PLC controller 610 may control the air switch 620, the power switch 630, the relay 640, the terminal output module 650, and the solenoid valve 660 to start operating.

In one embodiment, as shown in fig. 3, an additive delivery system is provided that may further include a flow meter 700, a dosing motor 800; one end of the batching motor 800 is connected with the conveying cabinet 200 through a first conveying pipeline 230; the other end of the batching motor 800 is connected with a third three-way valve 870 through a flow meter 700; the flow meter 700 and the batching motor 800 are both electrically connected to the PLC controller 610. The flow meter 700 may be configured to calculate a flow rate of the delivered additive, and specifically, the PLC controller 610 may control the flow meter 700 to calculate the flow rate of the additive being delivered. When the additive delivery data includes a plurality of additives to be delivered, the PLC controller 610 may sequentially control the additive delivery until all the additives are delivered. The dosing motor 800 may deliver the adjuvant to the device where it is desired to use the adjuvant.

In this embodiment, an additive delivery system is provided that may further include a flush motor 900; one end of the washing motor 900 is connected with the delivery cabinet 200 through the first delivery pipe 230; the other end of the flushing motor 900 is connected with a third three-way valve 870; a pneumatic valve 910 is provided on the first transfer pipe 230 connected to the flushing motor 900. When the additive delivery is complete, PLC controller 610 may flush motor 900 for flushing.

As shown in fig. 4, in one embodiment, the first terminal 100 is provided with an alarm 140; the alarm 140 is electrically connected to the first processor 110 for prompting an additive error. In this embodiment, if the conveying weight and the name of the additive are abnormal, the first processor 110 may control the alarm 140 to turn on, so as to prompt that the additive is wrong, thereby ensuring that the conveying process of the additive is accurate and the name is correct. Wherein, the alarm 140 may be an LED three-color audible and visual alarm. In this embodiment, the first terminal 100 may further be provided with a run button 150, and the run button 150 may be used for reset and start.

In one embodiment, as shown in fig. 5, a feeding three-way valve 410 is disposed in the feeding cabinet 400; the feeding three-way valve 410 is connected to the second processor 510, and when the auxiliary in the auxiliary barrel 300 is insufficient, the second processor 510 controls the feeding three-way valve 410 to supplement the auxiliary barrel 300 with the auxiliary. In another embodiment, a manual feed valve 420 may be further disposed in the loading cabinet 400, and when the auxiliary agent in the auxiliary agent tank 300 is insufficient, the worker may replenish the auxiliary agent tank 300 with the auxiliary agent through the manual feed valve 420. In this embodiment, as shown in fig. 5, a feeding hole 430 is further disposed on the feeding cabinet 400, and the assistant can be supplemented into the feeding cabinet 400 through the feeding hole 430, and then the assistant barrel 300 is supplemented with the assistant through the feeding cabinet 400. The loading cabinet 400 is further provided with a drain valve 440 for discharging the waste additives.

In one embodiment, the second display screen may be used to display the aid data in the aid bucket, monitoring the amount of aid in the aid bucket.

In one embodiment, the first processor can be further used for recording the actual conveying condition of the auxiliary agent in real time, transmitting the actual conveying condition of the auxiliary agent to the ERP system, storing the actual conveying condition of the auxiliary agent in the ERP system, performing rechecking, tracing the occurrence of problems in the production process, and improving the efficiency.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An auxiliary agent conveying system is characterized by comprising a first terminal, a conveying cabinet, an auxiliary agent barrel, a feeding cabinet and a second terminal; the first terminal is connected with the conveying cabinet and comprises a first processor, a first display screen and a data input device, and the first display screen and the data input device are electrically connected with the first processor respectively; the conveying cabinet is connected with the auxiliary agent barrel through a first conveying pipeline, and a first three-way valve is arranged on the first conveying pipeline; the feeding cabinet is connected with the second terminal, and the second terminal comprises a second processor and a second display screen; the second processor is connected with the second display screen; the feeding cabinet is connected with the auxiliary agent barrel through a second transmission pipeline, and a second three-way valve is arranged on the second transmission pipeline.

2. The additive delivery system of claim 1 wherein said data input device is a code scanner; the code scanner is electrically connected with the first processor and used for scanning the two-dimensional code to obtain the auxiliary agent conveying data from the ERP system and sending the auxiliary agent conveying data to the first display screen for displaying.

3. The additive delivery system of claim 2 further comprising a control cabinet; the control cabinet is arranged below the first terminal and is connected with the first terminal; the control cabinet is internally provided with a PLC (programmable logic controller), and the PLC is connected with the first processor and is used for receiving the auxiliary agent conveying data transmitted by the first processor.

4. The additive delivery system of claim 3 wherein an air switch, a power switch, a relay, a terminal output module, and an electromagnetic valve are further disposed in the control cabinet; the air switch, the power switch, the relay, the terminal output module and the electromagnetic valve are all electrically connected with the PLC.

5. The additive delivery system of claim 3 further comprising a flow meter, a dosing motor; one end of the batching motor is connected with the conveying cabinet through the first conveying pipeline; the other end of the batching motor is connected with a third three-way valve through the flowmeter; the flowmeter and the batching motor are electrically connected with the PLC.

6. The additive delivery system of claim 5 further comprising a flush motor; one end of the flushing motor is connected with the conveying cabinet through the first conveying pipeline; the other end of the flushing motor is connected with the third three-way valve; and a pneumatic valve is arranged on the first transmission pipeline connected with the flushing motor.

7. The additive delivery system of claim 1 wherein said first terminal is provided with an alarm; the alarm is electrically connected with the first processor and used for prompting an auxiliary agent error.

8. The additive delivery system of claim 1 wherein a loading three-way valve is disposed in said loading cabinet; the feeding three-way valve is connected with the second processor, and when the auxiliary in the auxiliary barrel is insufficient, the second processor controls the feeding three-way valve to supplement the auxiliary for the auxiliary barrel.

9. The additive delivery system of claim 1 wherein said second display screen is for displaying additive data in said additive tank.

10. The additive delivery system of claim 1 wherein said first processor is further configured to record a delivery of additive and communicate said delivery to an ERP system.

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