JPH07102468A - Apparatus for injecting chemical liquid to liquid flow treating machine - Google Patents

Abstract

PURPOSE:To eliminate the treatment defect by correcting the injection rate of a chemical liquid according to the circulation speed of a textile product (cloth). CONSTITUTION:A magnet 1A attached to the joint part of a cloth 1 is detected with a joint detector 13 and the signal is transmitted to an operation part 4. The operation part 4 calculates the circulation time from the interval of the signals and compares with a standard circulation time preset in a setter 3. The rotational speed of a chemical injection pump 7 is increased when the real circulation time is shorter than the standard circulation time and the speed is decreased in the reverse case. The setter 3 holds the standard circulation time and the standard pattern of the circulation time and the cumulative injection amount. The injection rate is optimized by correcting the standard pattern according to the increase or decrease of the circulation time.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid-flow processing machine for processing a long product in which textiles such as cloth are bound endlessly while being run by a liquid flow, and the injection amount of chemicals and auxiliaries. TECHNICAL FIELD The present invention relates to a chemical liquid injection control device for controlling.

[0002]

2. Description of the Related Art As a chemical liquid injection control device used for a dyeing machine or the like, a control device described in Japanese Patent Publication No. 5-24262 is known.

This chemical liquid injection control device is capable of presetting a plurality of basic patterns of a chemical liquid injection integration curve which is a combination of chemical liquid injection steps determined by time and injection speed, and constitutes this set basic pattern. An information processing unit that is equipped with a pattern setter that can freely set a new optimum pattern by changing the condition of each step or injection speed, and is connected to this pattern setter to classify and register basic patterns Is provided, and one of the basic patterns registered by the signal of the information processing unit is appropriately selected, and an optimum pattern in which the time or the injection speed is changed for each step in the basic pattern is provided. The output signal is sent to the inverter, and the amount of chemical liquid injected by the infusion pump is controlled by controlling the motor speed. It has to so that.

FIG. 3 shows an example of a pattern in this prior art. Reference numeral 20 is a basic pattern. If this basic pattern is kept as it is, the integrated injection amounts of V ₁ , V ₂ and V ₃ are obtained in the steps divided by the times T ₁ , T ₂ and T ₃ . Can impart a change in the injection amount of each step, for example, when the V ₄ to set the optimal pattern 20 'by remembering changes between _{T 0 -T 1, T 1 -T} 2 and T ₂ -T ₃ Even if the step between them is not changed, the integrated injection amount at time T ₂ rises to V ₆ . The dotted line along the basic pattern 20 indicates an ideal step.

Further, in the conventional liquid stream processing machine, when the endlessly joined long fibers are taken out after processing, the long fibers are stopped when the joining portion comes to a predetermined position to facilitate the taking out. . Therefore, a magnet is attached to the joint, a seam detector is arranged close to the running path of the long fiber, and the magnet is detected by this seam detector so that the joint stops at a predetermined position. I was doing.

When the long fibers are entangled and the circulation running is stopped, the operator manually stops the chemical injection pump.

[0007]

SUMMARY OF THE INVENTION In the above conventional technique,
The injection amount is controlled by controlling the number of rotations of the motor for driving the chemical injection pump in accordance with the selected predetermined pattern for each step divided by the times T ₁ , T ₂ , ...

In the liquid stream processor, the traveling speed of the fiber to be processed such as the cloth is affected by the processing temperature, presence / absence and type of the auxiliary agent, and the traveling speed is changed. Therefore, in the chemical liquid injecting device that injects the injection amount determined in relation to the time as in the above-mentioned conventional technique, even if the running speed of the long fiber changes, it is determined by the pattern regardless of the speed. Since a large amount of chemical solution is injected, the best product quality cannot be ensured and there is a problem in quality assurance.

Therefore, it is a first object of the present invention to solve the above problems and provide a chemical liquid injection control device for a liquid flow processing machine in which processing defects do not occur. A second object is to provide a chemical liquid injection control device that automatically stops the chemical liquid injection when the circulation of the treated fiber is stopped due to an accident or the like.

[0010]

In order to achieve the first object, a chemical liquid injection control device of a liquid flow treating machine according to claim 1 circulates and transfers an endlessly bonded fiber product by an injection liquid flow. In a liquid-flow processing machine that processes while processing, a basic pattern that determines the relationship between the number of circulation of textile products and the amount of chemical liquid injection, a setter that sets the basic circulation time, and a seam detector that detects the joint part of textile products And a calculation unit that calculates the actual circulation time of the textile product based on the signal from the seam detector, and calculates the correction value of the chemical liquid injection amount from the actual circulation time and the basic circulation time. And a control unit that controls the rotation speed of the chemical injection pump based on the correction value calculated by the unit.

In order to achieve the second object, the invention of claim 2 is the invention of claim 1, wherein the setter can set an upper limit value of the circulation time, and the actual circulation time is It is characterized in that when the upper limit is exceeded, the arithmetic unit issues a stop command for the chemical liquid injection pump to the control unit.

[0012]

In the setting device, the optimum basic pattern corresponding to the type of the textile product to be treated and the contents of the treatment, the basic circulation time, and the upper limit value of the circulation time are set in advance.

At the time of injecting the chemical liquid, the calculation unit calculates the actual circulation time at the interval (time) of the detection signal from the joint detector and compares it with the set basic circulation time. The actual circulation time is longer (slower) than the basic circulation time,
When it is short (fast), a correction value is calculated so as to decrease or increase the injection amount according to the actual circulation time, and based on this correction value, the rotation speed of the chemical injection pump is decreased from the value of the basic pattern or The control unit works to increase it.

When the actual circulation time exceeds the set upper limit value, it is judged to be abnormal, and the chemical injection pump is stopped.

[0015]

EXAMPLE FIG. 1 shows an example of the present invention, in which 1 is an endless fiber product to be treated, which will be referred to as a cloth hereinafter. Reference numeral 2 is a well-known liquid flow processing machine, and 1A is a magnet sewn to the joint portion of the cloth 1, which is covered with Teflon or the like.

Reference numeral 3 is a setter for setting and storing a basic pattern for determining the relationship between the number of circulations of the cloth 1 and the amount of chemical liquid injection, a basic circulation time, and an upper limit value of the circulation time, and 4 is a microcomputer. The arithmetic unit used inputs a signal from a seam detector that detects the bonded portion of the cloth 1 by detecting the magnet 1A, and calculates the actual circulation time of the cloth 1 from the signal interval. Then, the actual circulation time is compared with the basic circulation time to calculate the correction value of the chemical liquid injection amount.

Reference numeral 5 is a control unit (inverter), which is an arithmetic unit 4
The motor 6 is rotated at the number of rotations corresponding to the signal from. 7
Is a chemical injection pump, which is driven by a motor 6. Reference numeral 8 denotes a chemical liquid tank, and the chemical liquid in this tank is injected into the liquid flow processor 2 by the chemical liquid injection pump 7.

A circulation pump 9 is connected to a liquid flow jet section 11 through a discharge pipe 10. Further, the suction pipe 12 communicates with the liquid flow processor 2. Suction pipe for processing liquid 1
2, circulation pump 9, discharge pipe 10 and liquid jet unit 1
The fabric 1 circulates in the direction of 1, and the cloth 1 travels in a meandering manner inside the liquid flow processor 2 by the processing liquid ejected from the liquid flow jet unit 11.

Reference numeral 13 is the seam detector, which is a magnet 1A.
Is detected and an electric signal is sent to the arithmetic unit 4. In the setting device 3, the optimum basic pattern 14 suitable for the type and amount of the cloth 1 and the content (type) of processing is set and stored as shown in FIG.

The basic pattern 14 is such that after the chemical liquid injection is started, the number of circulations is 3 and the injection amount is V ₁ , and the injection amount is V ₂ and 9.
The pattern is a polygonal line divided into 3 steps so that the number of turns becomes V ₃ .

Further, the setting unit 3 stores and stores a numerical value of the basic circulation time, for example, 60 seconds, and an upper limit value of the circulation time, for example, 90 seconds which is 1.5 times the basic circulation time.
Now, suppose that the chemical liquid injection is started from the time when the magnet 1A is detected by the seam detector 13, and the timing is set to the position of the circulation number 0 in FIG. When the fabric circulates once again, the signal from the seam detector 13 enters the calculation unit 4.
In this way, the seam detection signals enter the calculation unit 4 in sequence, and when the time interval of each signal is 60 seconds or the basic circulation time of 60 seconds or close thereto, the chemical solution injection amount is injected based on the basic pattern 14. That is, the calculation unit 4 outputs a control signal to the control unit (inverter) 5 to control the rotation speed of the motor 6 and the rotation speed of the chemical injection pump so that the integrated injection amount of the basic pattern is obtained.

In this way, the injection amount is controlled to V ₁ in 3 cycles, V _{2 in} 6 cycles, and V _{3 in} 9 cycles. When the signal from the seam detector 13 enters the arithmetic unit 4, it is assumed that the time interval with the immediately preceding signal, that is, the circulation time is 50 seconds, which is shorter than the basic circulation time of 60 seconds. The calculation unit 4 calculates the number of rotations (6
The rotation speed of the chemical injection pump 7 is controlled via the inverter 5 and the motor 6 so that the rotation speed becomes 0/50) times, and the chemical injection amount is increased according to the running speed of the cloth.

On the contrary, when the actual circulation time is delayed from the basic circulation time, the rotation speed of the chemical injection pump 7 is lowered to decrease the injection amount per unit time from the value determined by the basic pattern 14. .

In this way, the number of revolutions of the chemical injection pump 7 is controlled to increase or decrease in response to the increase or decrease in the circulation speed of the cloth 1, and the injection amount is corrected to the optimum value. In FIG. 2, the pattern with reference numeral 15 shows an example of the pattern corrected in the direction of increasing the injection amount, and the pattern with the reference numeral 16 shows one example of the pattern corrected in the direction of decreasing the injection amount. The pattern thus corrected need not be stored.

When the actual circulation time exceeds the upper limit of 90 seconds, it is judged as abnormal, and the arithmetic unit 4 issues a stop command for the chemical liquid injection pump to the control unit 5, so that the motor 6 and the injection pump are stopped. Stop 7 and.

In the above embodiment, one basic pattern 14 is set and stored, but a plurality of basic patterns are set and stored in advance according to the object to be processed and the processing conditions. The basic pattern may be selected according to the work conditions at that time.

[0027]

EFFECTS OF THE INVENTION Since the chemical liquid injector of the liquid flow treating machine according to the present invention is constructed as described above, the optimum chemical liquid amount can be injected according to the circulation time of the textile product to be treated.
Process defects can be eliminated and product quality can be improved.

Further, when the circulation of the textile product is stopped due to an accident or the like, there is an effect that it can be detected promptly and the injection of the chemical solution can be automatically stopped.

[Brief description of drawings]

FIG. 1 is a block diagram of an embodiment of the present invention.

FIG. 2 is a diagram showing a pattern of the number of circulations and an integrated injection amount in the present invention.

FIG. 3 is a diagram showing a pattern of a cumulative injection amount of a conventional technique.

[Explanation of symbols]

 1 Textile Product (Fabric) 1A Magnet Attached to Joint Part 2 Liquid Flow Processor 3 Setting Device 4 Calculation Unit 5 Control Unit (Inverter) 7 Chemical Liquid Injection Pump 13 Seam Detector 14 Basic Pattern

Claims (2)

[Claims] 1. A basic pattern for determining a relationship between the number of circulations of a textile product and a chemical liquid injection amount in a liquid flow treatment machine for treating a textile product endlessly bonded while circulating and transferring it with a jet liquid flow, and a basic circulation. A setting device for setting the time, a joint detector for detecting the joint portion of the textile product, and a signal from the joint detector for calculating the actual circulation time of the textile product. And a control unit that controls the rotation speed of the chemical injection pump based on the correction value calculated by the calculation unit. Liquid chemical injection device for flow treatment machine. 2. The setting device is capable of setting an upper limit value of the circulation time, and when the actual circulation time exceeds this upper limit value, the arithmetic unit issues a stop command for the chemical injection pump to the control unit. The chemical liquid injection control device for a liquid flow processor according to claim 1.