KR20100033465A - The direct cooling and washing device of high temperature and high pressure dyeing machine - Google Patents

Abstract

PURPOSE: A direct cooling and washing device of a high temperature and high pressure dyeing machine is provided to greatly improving productivity of products by finishing all processes with a cooling process, and to reduce energy consumption. CONSTITUTION: A direct cooling and washing device of a high temperature and high pressure dyeing machine comprises the following: a preliminary tank(800) temporarily storing salt brine in a high pressure dying machine; an internal pressure shift valve(830) attached between pipes connected from the top of the preliminary tank to the high pressure dying machine; a waste liquid discharge valve(840) attached on a waste liquid discharge valve; a water detecting sensor(810) controlling opening and closing of the air circulation valve, the internal pressure shift valve, and the waste liquid discharge valve.

Description

The direct cooling and washing device of high temperature and high pressure dyeing machine

      The present invention relates to an apparatus for replacing the conventional cooling method by the heat exchanger 700 of the high temperature and high pressure dyeing machine 600 from the indirect cooling method to the direct cooling method, which temporarily stores the salt solution in the high pressure dyeing machine 600. Reserve tank 800 and the above

Internal pressure blocking valve 830 attached between the pipes connected to the high pressure dyeing machine 600 in the upper portion of the preliminary tank 800, attached to the pipe end connected to the outside from the upper side of the preliminary tank 800 to prevent the outflow of salt solution The main liquid is attached to the check valve 860 and the air circulation valve 820, the waste liquid discharge valve 840 attached to the waste liquid discharge pipe 850 connected from the lower part of the reserve tank 800, and the preliminary tank 800. It is characterized by consisting of a water level detection sensor 810 for controlling the opening and closing of the pressure-resistant shut-off valve 830 and the waste liquid discharge valve 840 and the air circulation valve 820 by sensing the amount of salt solution introduced into the tank 800. It is a device.

     On the other hand, the indirect cooling method is a method in which the cooling water flows to the outside of the pipe when the salt solution flows into the pipe inserted into the heat exchanger to take away the heat of the salt solution, and thus the efficiency is difficult to exceed 30%. The cooling water is directly diluted with the salt solution in the solution, so it is cooled in a short time.

In general, the cooling and washing method of the high temperature and high pressure dyeing machine 600 is a method of indirectly cooling the salt solution in the high temperature dyeing machine 600 while flowing the cooling water in the heat exchanger 700 mounted outside the high temperature dyeing machine 600. Efficiency is not more than 30%, and one embodiment of the existing process is a process of heating, maintaining, cooling, dispensing, feeding, reducing, washing, and washing. ) And the water washing process must be treated as a separate process, such that the consumption of the cooling water is excessively large, and the time and energy consumption are excessive.

Therefore, it is urgently required to reduce the consumption of cooling water and to propose an energy-efficient cooling system or to develop an alternative cooling system. However, until now, no useful system has been developed.

Therefore, the present invention implements a direct cooling method that can be directly attached to a conventional high temperature / high pressure dyeing machine 600, thereby reducing the consumption of cooling water, and also in the cooling process, the process of raising the temperature-maintaining-cooling (washing)-terminating Because the process is simplified, the process is simplified, eliminating the use of preparation, RC (Reduction Cleaning) and washing process, and all processes are completed at the same time as cooling, thus reducing the work process and reducing energy consumption. It is a flushing device.

In the direct cooling method having such a process, since the direct cooling water is introduced into the dyeing machine, the water level in the dyeing machine zone is blown out. The amount of cooling water added must be discharged to the outside, and the pressure of 3㎏ / ㎠ ~ 4㎏ / ㎠ Since it is maintained, it is necessary to control the pressure, which is difficult to discharge the cooling water.

Accordingly, the present invention is to solve the above problems, attached between the pre-tank 800 for temporarily storing the salt solution in the high-pressure dyeing machine 600 and the pipe connected to the high-pressure dyeing machine 600 in the upper portion of the preliminary tank 800. Pressure check valve 830, which is attached to the end of the pipe connected to the outside from the upper side of the preliminary tank 800 check valve 860 and air circulation valve 820, the preliminary tank 800 to prevent the leakage of salt solution Waste discharge valve 840 attached to the waste liquid discharge pipe 850 connected from the bottom of the, and is attached to the preliminary tank 800 to detect the amount of the salt solution flowing into the preliminary tank 800 pressure-resistant shut-off valve 830 ) And a water level sensor 810 for controlling the opening and closing of the waste liquid discharge valve 840 and the air circulation valve 820).

The present invention having the configuration as described above, the indirect cooling method by the heat exchanger 700 in the existing high temperature, high pressure dyeing machine 600 by implementing the cooling, washing method of the high temperature, high pressure dyeing machine 600 by direct cooling method. Not only does it consume less cooling water, but it also eliminates the need for separate preparation (RC) and water washing processes, and all processes are completed at the same time as cooling, reducing work processes and reducing energy consumption. There is an effect that can be significantly improved.

In addition, it is possible to achieve cost savings by directly installing a cooling / washing device without replacing the existing high temperature / high pressure dyeing machine.

The present invention relates to a device for replacing the cooling method of the high temperature and high pressure dyeing machine from the indirect cooling method to the direct cooling method, the preliminary tank 800 and the preliminary tank 800 for temporarily storing the salt solution in the high pressure dyeing machine 600. Pressure check valve 830 attached between the pipes connected to the high pressure dyeing machine 600 at the top, the check valve attached to the pipe end connected to the outside from the upper side of the preliminary tank 800 to prevent the leakage of salt solution ( 860 and the air circulation valve 820, the waste liquid discharge valve 840 attached to the waste liquid discharge pipe 850 connected from the lower portion of the preliminary tank 800, and the preliminary tank 800 is attached to the preliminary tank 800 It is a device having a rough configuration as a level sensor 810 for controlling the opening and closing of the pressure-resistant shut-off valve 830 and the waste liquid discharge valve 840 and the air circulation valve 820 by sensing the amount of the salt solution introduced into.

Looking at the embodiment and the operating principle of the present invention through the accompanying drawings as follows.

First, FIG. 1 shows a state diagram showing an embodiment in which the cooling / washing apparatus of the present invention is installed in a conventional high temperature / high pressure dyeing machine 600. FIG. 2 is a heat exchanger attached to a conventional high temperature / high pressure dyeing machine. 3 is a detailed view of the cooling and washing apparatus according to an embodiment of the present invention. Referring to FIG. 3, first, the operation principle of the pump 100 operates to pump cold water to reverse the flow of the cooling water. The automatic valve 300, which is automatically controlled by the check valve 200 and the temperature sensor 870 located in the coolant suction pipe 900, is operated to prevent the coolant from being transferred to the salt circulation suction pipe 500 through the coolant supply pipe 400. Is committed.

Next, when the waste discharge valve 840 which is automatically opened and closed by the water level sensor 810 in the preliminary tank 800 is operated to open the pressure-resistant shut-off valve 830 in the locked state, the dyeing machine zone 600 ) Salt solution is introduced into the preliminary tank 800, and the water level detection sensor 810 detects the amount of the salt solution introduced, and when a predetermined amount or more is filled, the internal pressure blocking valve 830 is operated to lock the inflow state. Blocking the operation, and when the waste liquid discharge valve 840 is opened by operating the waste liquid is a structure to outflow the waste liquid through the waste liquid discharge pipe (850).

On the other hand, when all the pressure vessels open the valve suddenly in the state where the pressure is stored there is a high risk of accident by the pressure of the internal pressure, the high rate of failure due to the fabric entanglement phenomenon by interrupting the constant flow of the fabric. The structure of the present invention is formed of a pressure-resistant shut-off valve 830 for blocking the internal pressure of the high-pressure dyeing machine 600 and a waste liquid discharge valve 840 for discharging the waste liquid to the outside, the internal pressure in the locked state of the external air circulation valve 820 When the shutoff valve 8305 is opened, the salt solution in the high pressure dyeing machine 600 zone gradually flows into the preliminary tank 800. When the salt tank is filled in the preliminary tank 800, the pressure-resistant shut-off valve 830 is locked, and when the air circulation valve 820 is opened, the pressure in the dyeing machine 600 zone is blocked by the pressure-resistant shut-off valve 830. By adopting the principle that the salt solution can be discharged irrespective of the internal pressure, when the internal pressure blocking valve 830 is blocked, the pressure in the zone of the dyeing machine 600 and the pressure of the preliminary tank 800 are separated. At this time, when the waste liquid discharge valve 840 and the air circulation valve 820 is opened, the waste liquid of the preliminary tank 800 is discharged to the outside through the waste liquid discharge pipe 850.

1 is a state diagram showing one embodiment in which the cooling and washing apparatus of the present invention is installed in a conventional high temperature and high pressure dyeing machine.

2 is a detailed view of a heat exchanger of a conventional high temperature and high pressure dyeing machine,

3 is a view showing a cooling and washing apparatus according to an embodiment of the present invention.

Claims (1)

Pressure-resistant shut-off valve 830, the reserve tank 800 is attached between the preliminary tank 800 for temporarily storing the salt solution in the high-pressure dyeing machine 600 and the pipe connected to the high-pressure dyeing machine 600 from the upper portion of the preliminary tank 800. Attached to the check valve 860 and air circulation valve 820, which is attached to the pipe end connected to the outside from the upper side of the outside to prevent the outflow of salt solution, connected to the waste liquid discharge pipe 850 connected from the lower portion of the reserve tank 800 The waste liquid discharge valve 840 is attached to the inside of the preliminary tank 800, and detects the amount of the salt solution introduced into the preliminary tank 800 to detect the internal pressure blocking valve 830, the waste liquid discharge valve 840, and the air circulation valve ( The water level sensor 810 for controlling the opening and closing of the 820 is characterized in that it can be attached without a separate device in addition to the temperature sensor 870 attached to the cooling water suction pipe 900 of the existing high pressure dyeing machine 600. Direct cooling of high temperature, high pressure dyeing machine Flushing device.

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