KR100798041B1 - Method of suppling pulp raw water with there chemical water for paper vessel - Google Patents

Abstract

A method for operating an apparatus for supplying a pulp solution and a chemical liquid is provided to produce the pulp solution according to a set amount and a set concentration automatically by using a pulp raw liquid pulse unit and a diluting water pulse unit, and to control the additive amount of chemical liquid automatically by using a chemical liquid pulse unit. A pulp solution is supplied by calculating the transport amount of pulp raw liquid and the transport amount of diluting water(S110), setting count values for a raw liquid pulse count unit and a diluting water pulse count unit(S120), and operating a raw liquid pump and a diluting water pump(S130). When the raw liquid pulse count unit or the diluting water pulse count unit counts the set count value, the operation of the corresponding pump is stopped(S150). Respective chemical liquids are supplied(S180) by calculating the transport amount values of the chemical liquids, which are to be added into the pulp solution, setting count values for respective chemical liquid pulse count units, and operating respective chemical liquid pumps. When some of the chemical liquid pulse count units count the set count values, the operation of the corresponding pumps is stopped(S200).

Description

Operation method of pulp solution for paper container and chemical liquid supply device {METHOD OF SUPPLING PULP RAW WATER WITH THERE CHEMICAL WATER FOR PAPER VESSEL}

The present invention relates to a pulp solution for the production of a paper container for storing and transporting food, and in particular, a pulp solution for paper container to dilute the pulp solution as a raw material and add a designated chemical solution to be supplied at a predetermined concentration. It relates to a method of operating a chemical liquid supply device.

Due to the development of society, various types of containers or packaging materials are used for fast and safe packaging and transportation of objects including foods, but these packaging materials are generally used once and discarded.

After these packaging materials are used, they are turned into garbage, dumped into the surrounding environment, and biodegradation takes a long time. Therefore, it is necessary to use materials that can accelerate biodegradation in the natural state. Recommended.

One of the materials that biodegradation proceeds relatively quickly in the natural state is paper material, and paper material is pulp, which is fiber extracted from plants, and pulp solution in which pulp is dissolved is poured into a predetermined mold provided in the paper machine. Removing it will create a paper container of the desired shape.

In order to mass produce paper containers to a certain standard, the concentration of the solution in which the pulp is dissolved should be controlled constantly, and the designated chemical solution should be added to improve the characteristics of the pulp and the finished product.

Conventionally, in order to control the concentration of the pulp solution, the dilution water is mixed manually with the pulp solution, and the concentration is checked frequently so as to achieve the desired concentration. Since it must be added, there is a problem that a skilled worker has a problem that is difficult to maintain a constant concentration of the pulp solution.

The present invention is to maintain the diluted concentration of the pulp stock solution and to control the addition amount of the designated chemical solution uniformly, in particular, the pulp solution, which is maintained at a constant concentration because it is counted and controlled the supply amount of the pulp stock solution and dilution water It is an object of the present invention to provide a method of operating a paper container pulp solution and a chemical liquid supplying device which is automatically produced by the present invention.

In addition, the present invention is that the specified chemical solution is added to the pulp solution, which is diluted to the set volume and concentration, and the designated chemical solution is added at the set volume, and in particular, each diluted chemical solution is automatically added to the pulp solution at the set capacity of the paper container pulp solution. The purpose is to provide a method of operating a liquid supply device.

The present invention devised to achieve the above object, the pulp solution for calculating the flow rate of the pulp stock solution and dilution water by the control unit of the apparatus, setting the coefficient value of each pulse coefficient section and driving the stock solution pump and dilution water pump Supplying a first process; A second step of stopping the driving of the pump when each pulse counting unit counts the pulp stock solution and the dilution water to a set value; A third step of estimating the flow rate of each chemical liquid to be added to the pulp solution, setting a coefficient value of each chemical liquid pulse counting unit, and driving each chemical liquid pump to supply the chemical liquid; A fourth step of stopping driving of the chemical liquid pump when each chemical liquid pulse counting unit counts the set value; This presents the included configuration.

Preferably the flow rate of the pulp stock solution is characterized by the following formula.

Pulp Stock Flow (ℓ) = Vt * [D / Do]

Vt: Capacity of the combined tank to store pulp stock

D: Pulp solution concentration of combination tank

Do: concentration of pulp stock in the stock tank

In addition, the coefficient value set in the stock solution pulse coefficient unit is characterized by the following equation.

Stock Pulse Counting Part Count = Pp * Pulp Stock Flow (ℓ)

Pp: Number of pulses sent from the stock pump

In addition, the calculation of the dilution water flow rate and the coefficient value of the dilution water pulse coefficient unit is characterized by the following equation.

Dilution Water Flow Rate (ℓ) = Vt-Pulp Stock Flow Rate (ℓ)

Vt: Capacity of the combined tank to store pulp stock

Dilution coefficient coefficient value = Pw * dilution water flow rate (ℓ)

Pw: pulse number of dilution water pump

The chemical liquid addition amount and the coefficient value of the chemical liquid pulse coefficient unit are calculated by the following equation.

Chemical addition amount (ℓ) = Vm * (Dp * Da) / (100 * D) * N

Vm: Amount of pulp solution in the combination tank (ℓ)

Dp: Concentration of pulp solution in the combined tank (%)

Da: Addition rate of chemical liquid (%)

D: Fixed fraction of chemical liquid to be added (%)

N: chemical liquid dilution ratio (x)

Counting value of chemical liquid pulse coefficient = chemical amount added * P

P: Number of pulses transmitted from the chemical pulse coefficient unit

The present invention of the configuration as described above has the industrial use effect of automatically producing a pulp solution for producing a paper container at a predetermined concentration and a specified capacity.

In addition, since the capacity of the chemical liquid added to the pulp solution is automatically controlled, there is a convenient effect in use to keep the production quality of the paper container constant.

Hereinafter, according to the present invention having the configuration described above, the operation method of the pulp solution for paper containers and the chemical liquid supply device will be described in detail with reference to the accompanying drawings as a preferred embodiment.

Example

It is attached to illustrate the present invention, Figure 1 is an example of the present invention is a functional diagram of the pulp solution and chemical liquid supply device for paper containers, Figure 2 is a pulse counting unit according to an example of the device of the present invention Fig. 3 is a diagram showing the configuration of the control panel, and Fig. 3 is a configuration diagram showing the control system function of the pulp solution for paper containers and the chemical liquid supply device according to an example of the present invention, and Fig. 4 is a pulp solution for paper container according to an example of the present invention. Flowchart of the automatic operation of the liquid supply device.

In describing an example of the present invention, drawings and descriptions of well-known technical contents that are not directly related to the present invention are omitted, and thus the present invention is clearly communicated without obscuring the gist of the present invention.

With reference to FIG. 1, the structure of the stock solution part 100 and the dilution part 200 which store and convey pulp stock solution and dilution water by one example of this invention is demonstrated in detail.

The stock solution part 100 includes a stock solution tank 110, a stock solution pump 120, and a stock solution pulse coefficient part 130, and the dilution part 200 includes a dilution water tank 210 and a dilution water pump 220. ), The dilution water pulse coefficient unit 230 is configured.

The stock solution tank 110 is a pulp stock solution (PULP RAW WATER) diluted in dilution water in 10-fold, for example, purely dried solid pulp is stored in a liquid state, impurities in the dilution water tank 210 Purified water is stored.

The stock solution pump 120 is connected to a portion of the lower portion of the stock solution tank 110, and the stock solution pump 120 is driven by manual or automatic control selected by a corresponding operator, and the pulp stock solution stored in the stock solution tank 110 is used. It is flowed through the flow pipe (160).

The operator who operates the pulp solution for the paper container and the chemical liquid supplying device calculates, by way of example, the capacity of the pulp stock to be flowed from the stock tank, and calculates and sets the value to be counted in the stock pulse counting unit. The formula used is the following formula.

(Formula 1)

Pulp Stock Flow (ℓ) = Vt * [D / Do]

Vt: Capacity of the combined tank to store pulp stock

D: Pulp solution concentration of combination tank

Do: concentration of pulp stock in the stock tank

Stock Pulse Counting Part Count = Pp * Pulp Stock Flow (ℓ)

Pp: Number of pulses sent from the stock pump

In other words, when the apparatus is controlled manually, the pulsed liquid feeding capacity value and the raw liquid pulse counting unit coefficient value are manually calculated, and the value calculated in the raw liquid pulse counting unit is set directly to count the pulsed liquid feeding amount. Do it. At this time, the liquid pulse counting unit stops driving by controlling the liquid pump when the count is completed.

In the case of controlling the apparatus in an automatic manner, each variable value is directly input to the control unit through the corresponding input / output unit, and the control unit calculates the pulp feed liquid flow rate and the stock solution pulse coefficient unit coefficients by calculation, and calculates the calculated coefficients. The value is automatically set in the stock pulse counting unit.

At this time, the control unit, when the stock solution pulse counting unit completes the count of the set value, automatically stops the driving of the stock solution pump.

In addition, the lower portion of the dilution water tank 210 is connected to the dilution water pump 220, the dilution water pump 220 is driven by a manual or automatic control method selected by the operator and the dilution water tank 210 The dilution water stored in the flow through the flow pipe 160.

The operator calculates the dilution water capacity to be flowed from the dilution water tank, for example, by manual method, calculates and sets the value to be counted in the dilution water pulse coefficient unit, and the formula used here uses the following equation.

(Formula 2)

Dilution Water Flow Rate (ℓ) = Vt-Pulp Stock Flow Rate (ℓ)

Vt: Capacity of the combined tank to store pulp stock

Dilution water pulse coefficient coefficient value = Pw * dilution water flow rate (ℓ)

Pw: pulse number of dilution water pump

That is, when the apparatus is controlled manually, the dilution water flow rate value and the dilution water pulse coefficient part value are calculated by the manual method, and the dilution water flow rate is set directly by setting the value calculated in the dilution water pulse coefficient part. To count. At this time, the dilution water pulse counting unit stops the operation by controlling the dilution water pump when the counting value is completed.

In the case of controlling the apparatus in an automatic manner, each variable value is directly input to the corresponding control unit, and the control unit calculates the dilution water flow rate and the coefficient value of the dilution water pulse coefficient unit by calculation, and calculates the calculated value Automatically set in pulse counting section.

That is, the stock solution pulse counting unit 130 and the dilution water pulse counting unit 230 confirms the amount of the corresponding liquid to be transported or outflowed by the pulse number coefficients generated by the stock solution pump and the dilution water pump, respectively, The value is displayed numerically, and when the count of the set maximum value is completed, in the manual control state, the pump is controlled to stop the driving, and in the automatic control state, the driving is applied to the control unit. Stops or stops.

Referring to FIG. 2, the configuration of the control panel 500 of the stock pulse counting unit 130 and the dilution water pulse counting unit 230 will be described in detail. The counting unit 520 and the set value unit 530 are provided. And a display unit 510, a setting key unit 540, an operation key unit 550, a mode key unit 560, and a reset key unit 570.

The display unit 510 displays the amount of the liquid flowed out or flowed from the pump as a number, a counting unit 520 for detecting and displaying the flow rate of the liquid, and a set value unit 530 for displaying the maximum limit value to be counted. It is provided.

The set key unit 540 controls the set value unit 530, and is a key button for directly inputting a maximum value to be counted by the pulse count unit, and the operation key unit 550 counts the flow rate of the liquid by the pulse count unit. A mode key unit 560 sets a mode for inputting and outputting a count value and a mode for selecting and setting a counting speed, and the reset key unit 570 resets all values displayed on the display unit 510 to zero. Initialize to.

The counting speed of each pump configured in the present invention is set to be equal to or greater than the outgoing frequency value of the pump, and the outgoing frequency value of each pump is calculated by the following equation.

(Formula 3)

Pump outgoing frequency (cps) = [discharge amount (ℓ / min) / 60)] * pulse outgoing (PULSE / ℓ)

The pulse outgoing number is the number of pulses generated as the pump is driven.

That is, each pulse counting unit monitors the pump and displays the capacity counting value of the flowed liquid in the counting unit 520 and compares it with the setting value of the setting unit 530. To the control unit. Each pulse coefficient unit is configured to store a value already counted even when the main power source is out of power.

According to one embodiment of the present invention with reference to Figure 1, in detail the chemical part for storing and transporting a plurality of chemicals, to store each of two or more designated multiple chemicals, for example, the first chemical tank 311 And a chemical liquid tank 310, a first chemical liquid pump 320, and a first chemical liquid pulse coefficient unit 330 including a second chemical liquid tank 312, a third chemical liquid tank 313, and a fourth chemical liquid tank 314. , The second chemical liquid pump 340, the second chemical liquid pulse coefficient unit 350, the third chemical liquid pump 360, the third chemical liquid pulse coefficient unit 370, the fourth chemical liquid pump 380, and the fourth chemical liquid pulse coefficient It is the structure containing the part 390.

Each of the chemical tanks (311, 312, 313, 314) is a designated chemical liquid is preferably provided by diluting by 15 times, for example, each tank capacity to be different to reflect the difference in the capacity of the added chemical liquid Can be.

Each chemical solution is added for cohesiveness, free water, antibacterial, deodorization, fixation, and strengthening of intelligence, and there is a difference in the amount to be added depending on the purpose of the paper container produced as a pulp solution. Is determined, and each chemical liquid is added at predetermined time intervals.

The chemical liquid dilution ratio of the chemical liquid tank is calculated by the following equation.

(Formula 4)

N = (Tc + Vc) / Vc

N: Dilution ratio of chemical

Vc: amount of chemical liquid added (ℓ)

Tc: Tank Capacity

That is, by using the above formula, it is possible to calculate the dilution concentration of each chemical tank.

The first chemical liquid pump 320 and the first chemical liquid pulse coefficient unit 330 are connected to a lower portion of the first chemical liquid tank 311, and the second chemical liquid pump 340 is provided at a lower portion of the second chemical liquid tank 312. ) And the second chemical liquid pulse coefficient unit 350 is connected, and the third chemical liquid pump 360 and the third chemical liquid pulse coefficient unit 370 are connected to a lower portion of the third chemical liquid tank 313 and the fourth chemical liquid A fourth chemical liquid pump 380 and a fourth chemical liquid pulse coefficient unit 390 are connected to a lower portion of the tank 314, and each of the chemical liquid pumps 320, 340, 360, and 380 is controlled by manual or automatic control. The chemical liquid of the selected capacity is transferred to the combination unit 400 through the flow pipe 160.

The amount of each chemical added is determined by the following equation.

(Formula 5)

Chemical addition amount (ℓ) = Vm * (Dp * Da) / (100 * D) * N

Vm: Amount of pulp solution in the combination tank (ℓ)

Dp: Concentration of pulp solution in the combined tank (%)

Da: Addition rate of chemical liquid (%)

D: Fixed fraction of chemical liquid to be added (%)

N: chemical liquid dilution ratio (x)

Counting value of chemical liquid pulse coefficient = chemical amount added * P

P: Number of pulses sent by the chemical liquid pulse coefficient part (temporarily applied to the value of 300 and later corrected according to the flow of the chemical liquid)

At this time, the first chemical liquid pulse coefficient unit 330, the second chemical liquid pulse coefficient unit 350, the third chemical liquid pulse coefficient unit 370, the fourth chemical liquid pulse coefficient unit 390 is the corresponding chemical liquid pump 320, 340 , 360, 380) to monitor the driving capacity of the specified chemical liquid and count the flow rate of each specified, and if the set maximum value is counted, if the operation is operated manually, the drive state is stopped by applying a counting completion signal to the pump In the case of operating in the manner, since the counting completion signal is applied to the control unit, the driving state of the corresponding pump is stopped by the control unit.

According to one embodiment of the present invention, the combination unit 400 for storing the added to the chemical solution to the diluted pulp solution in detail, the first control valve 410 and the first combination tank 420 to the N-th control valve ( 430 and the N-th combination tank 440.

The first control valve 410 to the N-th control valve 430 is a pulp feedstock, dilution water, chemical liquid flown into the flow pipe 160 by manual or automatic control the first combination tank 420 to The N-th combination tank 440 is selectively supplied or cut off. The first control valve 410 to the N-th control valve 430 and the first combination tank 420 to the N-th combination tank 440 may be composed of two or more of the same as necessary.

Referring to Figure 3, according to one embodiment of the present invention, when explaining the control system of the paper container pulp solution and the chemical liquid supply device, the control unit 600 is diluted with the stock solution pump 120 and the stock solution pulse counting unit 130 The water pump 220, the dilution water pulse coefficient unit 230, and the first to fourth chemical liquid pumps 320, 340, 360, and 380 and the first to fourth chemical liquid pulse coefficient units 330, 350, 370, and 390. And the first to Nth control valves 410 and 430 and the input / output unit 610 to control and monitor respective operating states.

The control unit 600 controls and monitors the operation state of each functional unit connected by the control command input from the input / output unit 610 and the value of each parameter according to the operating environment, thereby controlling the pulp stock solution and dilution water. It is supplied at the designated volume, and the chemical solution is added at the designated volume to automatically mass produce pulp solution of constant concentration.

With reference to Figure 4, by way of example of the present invention will be described in detail the automatic operation method of the paper container pulp solution and the chemical liquid supply device.

As a preparation process for making a paper container, when the pulp solution is to be produced at a predetermined concentration (S100), the pulp solution to determine the capacity of the pulp solution to be produced by the operator, and to produce the determined pulp solution capacity Calculate the flow rate of the dilution water (S110).

Equation 1 is used to calculate the flow rate and count value of the pulp stock solution, and Equation 2 is used to calculate the flow rate and count value of the dilution water.

The coefficient values calculated together using Equations 1 and 2 are respectively set as coefficient values to be counted in the stock solution pulse unit and the dilution pulse unit (S120).

In order to produce the pulp solution, the stock pump and the dilution water pump are driven (S130), and the stock solution pulse coefficient and the dilution water pulse coefficient are monitored, respectively, to check whether the set value is counted (S140).

When the value set in the above confirmation is counted, the driving of the pump is stopped or stopped (S150).

As described above, the process of driving the pump may be performed manually or automatically, and each pulse counting unit stops the driving state automatically by controlling the pump when the set value is counted. Do not allow numbers to flow. Alternatively, all of the above processes may be automated to monitor and control driving and stopping at a central controller provided separately.

The operator calculates the dilution ratios of each chemical solution to be added to the produced pulp solution by Equation 4 (S160), and calculates the amount of each chemical solution added by Equation 5 to form a chemical liquid tank of the chemical solution tank. The counting unit sets the count value to be counted (S170).

After the count value is set as described above, each chemical liquid pump is driven, so that each chemical liquid is added to the pulp solution (S180).

At this time, the amount of chemicals added is added in a predetermined order.

Each chemical liquid pump is driven and the volume of the chemical liquid added is determined by checking the coefficient value set in each chemical pulse coefficient unit (S190), the chemical liquid pulse coefficient unit stops the operation of the pump (S200). ).

The operator operates the pump of the chemical liquid to be added in the following order, and counts all the count values set by the chemical liquid pulse coefficient unit and stops. This series of steps is repeated until all of the designated chemicals have been added in the set amounts.

Each chemical solution is added for cohesiveness, Yeosu, antibacterial, deodorization, fixation, strengthening strength, etc., depending on the purpose of the paper container produced as a pulp solution, and the order of addition of each chemical solution is determined. The chemical liquid is added at predetermined time intervals.

In the present invention, it is preferable to add a chemical solution in the following order at a time interval of about 3 minutes after adding one chemical solution.

All of the above control can be controlled manually or the step-by-step operation can be automatically controlled using a separate control unit.

The present invention of the above configuration has the advantage of producing a pulp solution of a predetermined concentration by mixing the dilution water of the calculated capacity to the pulp stock solution of a predetermined capacity for producing a paper container, and by adding a designated chemical solution in a predetermined capacity.

Although the present invention has been described as an example, it is not necessarily limited to such an example, and various modifications can be made without departing from the spirit of the present invention. Therefore, one example disclosed in the present invention is not intended to limit the technical spirit of the present invention but to explain, and the scope of the technical spirit of the present invention is not limited by the one example. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

1 is an overall functional configuration diagram of a pulp solution for a paper container and a chemical liquid supplying device according to an example of the present invention;

2 is a view showing the configuration of each pulse count unit control panel according to an example of the present invention device;

3 is a configuration diagram of a control system function of a pulp solution for a paper container and a chemical liquid supply device according to one embodiment of the present invention;

Figure 4 is a flowchart of the automatic operation method of the pulp solution for paper containers and the chemical liquid supply apparatus according to an embodiment of the present invention.

          ** Explanation of symbols on the main parts of the drawing **

100: undiluted portion 110: undiluted tank

120: stock solution pump 130: stock solution pulse coefficient

160: flow pipe 200: dilution unit

210: dilution water tank 220: dilution water pump

230: dilution water pulse coefficient part 300: chemical part

310: chemical tank 311: first chemical tank

312: 2nd chemical tank 313: 3rd chemical tank

314: fourth chemical tank 320: first chemical pump

330: first chemical liquid pulse coefficient unit 340: second chemical liquid pump

350: second chemical liquid pulse coefficient unit 360: third chemical liquid pump

370: third chemical liquid pulse coefficient unit 380: fourth chemical liquid pump

390: fourth chemical pulse coefficient unit 400: combination unit

410: first control valve 420: first combination tank

430: Nth control valve 440: Nth combination tank

500: pulse counting unit 510: display unit

520: counting unit 530: setting value unit

540: setting key 550: operation key

560: mode key section 570: reset key section

600: control unit 610: input and output unit

Claims (5)

The flow rate of the pulp stock solution is calculated by the controller of the apparatus according to the following formula, the flow rate of the dilution water is calculated, the coefficient value of each pulse coefficient section is set, and the pulp solution for supplying the stock solution pump and the dilution water pump is supplied. 1 course; A second step of stopping the driving of the pump when each pulse counting unit counts the pulp stock solution and the dilution water to a set value; A third step of calculating a flow rate of each chemical liquid to be added to the pulp solution, setting a coefficient value of each chemical liquid pulse counting unit, and driving each chemical liquid pump to supply the chemical liquid; A fourth step of stopping driving of the chemical liquid pump when each chemical liquid pulse counting unit counts the set value; Operation method of the paper container pulp solution and chemical liquid supply device comprising a. Pulp Stock Flow (ℓ) = Vt * [D / Do] Vt: Capacity of the combined tank to store pulp stock D: Pulp solution concentration of combination tank Do: concentration of pulp stock in the stock tank delete The method of claim 1, A method of operating a pulp solution for a paper container and a chemical liquid supply device, characterized in that the coefficient value set in the stock pulse counting unit is determined by the following equation. Counting value of the stock solution pulse coefficient = Pp * Flow rate of pulp stock solution (ℓ) Pp: Number of pulses sent from the stock pump The method of claim 1, The method of operating a paper container pulp solution and a chemical liquid supply device is characterized in that the dilution water flow capacity and the coefficient value of the dilution water pulse coefficient unit are calculated by the following equation. Dilution Water Flow Rate (ℓ) = Vt-Pulp Stock Flow Rate (ℓ) Vt: Capacity of the combined tank to store pulp stock Count value of dilution water pulse coefficient = Pw * dilution water flow rate (ℓ) Pw: pulse number of dilution water pump The method of claim 1, The method of operating the paper container pulp solution and the chemical liquid supply apparatus, wherein the chemical liquid addition amount and the coefficient value of the chemical liquid pulse coefficient unit are calculated by the following equation. Chemical addition amount (ℓ) = Vm * (Dp * Da) / (100 * D) * N Vm: Amount of pulp solution in the combination tank (ℓ) Dp: Concentration of pulp solution in the combined tank (%) Da: Addition rate of chemical liquid (%) D: Fixed fraction of chemical liquid to be added (%) N: chemical liquid dilution ratio (x) Counting value of chemical liquid pulse coefficient = chemical amount added * P P: Number of pulses transmitted from the chemical pulse coefficient unit

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