JPH02279199A - Dry cleaning device - Google Patents

Abstract

PURPOSE:To allow the cleaning of diversified kinds of clothing by independently using perchloroethylene in particular by providing means for controlling the temp. of the solvent supplied to a treating tank to the temp. suitable for the material, finishing or the like of the clothing. CONSTITUTION:This device is provided with the solvent temp. controller 60 in the fore stage where a solvent 4 is supplied to the treating tank 10. The solvent temp. controller 60 is constituted of a refrigerator 62, a refrigerant supplying pipe 63, a solvent cooler 61, a heat medium supplying device 65, and a solvent heater 64. The controller has the function to control the temp. of the solvent to be supplied to the treating tank 10 to about 5 deg.C at the time of cleaning the delicate clothing and to control the temp. to room temp. to about 40 deg.C at the time of cleaning the clothing for practical use. The perchloroethylene of about 5 deg.C has the detergency equiv. to the detergency of fluorocarbon 113 for the oil soluble stained clothing and the delicate clothing can be safely cleaned with the perchloroethylene of about 5 deg.C. The cleaning effect equiv. to that obtainable by the conventional method is obtd. with ordinary clothing by cleaning with the perchloroethylene of about room temp.

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention uses perchlorethylene as a cleaning solvent, making it possible to wash a wide range of clothes from ordinary clothes to delicate clothes with the same device. This invention relates to a dry cleaning device (hereinafter referred to as a dry cleaner).

(Prior art) In conventional dry cleaners, 1.1.1) Lichloroethane, perchlorethylene, Freon 113, Freon 11
Five types of organic solvents are used as cleaning agents: , turpentine (petroleum-based).

A dry cleaning process using a device other than a turpentine will be outlined using FIG. 4, which shows a system diagram of a conventional dry cleaner.

First, clothing 2 is put in through door 1, door 1 is closed, and operation is started. Generally, the steps proceed in the following order.

(2) The solvent 4 is pumped up from the solvent tank 3 through the valve 5 with the pump 6, and the required amount of the solvent 4 is sent into the processing tank 10 through the path consisting of the valve 7 and the filter 8 or the path consisting of the valve 9.

■, Slowly rotate the processing drum 11 and pour the solvent 4 into the processing tank 1.
0, button trap 12, valve 13, pump 6, valve 7, filter 8 or valve 9.

(2) The liquid is drained through the processing tank 10, button trap 12, valve 13, pump 6, pulp 14, and distiller 15, and then the processing drum 1 rotates at high speed to centrifugally separate the solvent 4 in the clothing 2. Drain in the same way.

(2) Repeat the steps in (2) and (2) above.

■5. Processing tank 10. button trap 12, valve 13,
The liquid is drained into the solvent tank 3 along the path of the pulp 5, and then the processing drum 11 rotates at high speed to centrifugally separate the solvent 4 in the clothing 2 and drain it.

■Slowly rotate the processing drum 11 again, and the fan 16,
Air is circulated in the direction of arrow 20 between a recovery air duct 19 consisting of an air cooler 17 and an air heater 18 and a processing tank 10 to dry the clothes 2. The solvent gas evaporated from the clothing 2 is condensed in the air cooler 17, enters the water separator 22 through the recovery path 21, and enters the Tallinn tank 24 through the solvent pipe 23.

② When drying is completed, the dampers 25 and 26 open as shown by the broken lines, taking in fresh air from the damper 25, and exhausting uncondensed solvent gas that cannot be recovered by the air cooler 17 from the damper 26, eliminating the solvent odor in the clothing 2. Deodorize.

The solvent 4 that entered the distiller 15 in the process of (2) and (2) evaporates and is condensed and recovered in the condenser 27, passes through the water separator 22 and solvent piping 23, enters the Tallinn tank 24, and flows from the overflow partition plate 28. , return to solvent tank 3. In addition,
The water separated by the water separator 22 is discharged to the outside of the system through a water pipe 29.

Next, the dry cleaning process using turpentine (petroleum solvent) will be outlined using FIGS. 5 and 6.

Turpendry cleaners usually have a cleaning and deliquing tank 100 shown in FIG. 5, which is similar to the processing tank shown in FIG. 4, and a sixth tank.
The drying tank shown in the figure is divided into 20 (also called a tumbler).

In the cleaning and deliquing tank 100, the cleaning process using another solvent described above and the same processes as the above-mentioned (1), (2) and (2) are performed to complete the entire process. Incidentally, in turpentine dry cleaning, distillation is usually not performed, but in many cases, the filter 8a is filled with a fatty acid adsorbent such as porous alumina or a decolorizing agent such as activated carbon to purify the solvent 4. Remove the dehydrated clothing 2 from the door 1 and close it to the tumbler door 1a in Figure 6.
from there to the processing tank 10a. In the tumbler, outside air 20
A is taken in from the inlet duct 19a by the fan 16, heated by the air heater 18, and sent to the processing tank 10a. The solvent 4 in the clothing 2 evaporates and exits the outlet duct 19b.
is discharged outside the system (outdoors), and drying is completed.

The general dry cleaning process using various solvents has been outlined above, but currently dry cleaners that use these solvents use a single solvent cleaning and drying method, and each solvent has its own The types of clothing that can be processed are also limited.

Table 1 compares typical physical properties of currently widely used solvents. Furthermore, Table 2 compares the dry cleaning characteristics, restrictions, drawbacks, etc. caused by typical physical properties of the solvents shown in Table 1.

Therefore, in order to respond to the recent diversification of clothing materials, processing, and forms due to these physical properties, two types of dry cleaners, perchlorethylene dry cleaner and Freon 113 dry cleaner, and 1.1.1 trichloroethane dry cleaner are needed. Three types of dry cleaners will be required, and for cleaning companies, this will require increased purchase funds, space, equipment capacity, etc., and maintenance work will become more complicated.
It was an extremely heavy burden.

Table 1 (However, the KB value is one of the measures expressing the relative dissolving power of a solvent.) Table 2 (Problems to be solved by the invention) Conventionally, different solvents have been used depending on the type of clothing. For example, for so-called delicate clothing containing pigment prints and urethane processed products, dry cleaners that use perchlorethylene, which is the most popular synthetic solvent, are not suitable, and Freon 113 or turpentine (petroleum-based) should be used. There is a problem that a dry cleaner must be installed.

- Therefore, the present invention aims to provide a dry cleaner that can clean a variety of clothes by using a single solvent, especially perchlorethylene.

(Means for Solving the Problems) For this reason, the inventors of the present invention conducted intensive research on the cleaning power of perchlorethylene, and found that (1) its cleaning power is highly temperature dependent.

(2) The lower the temperature, the lower the cleaning power.

(3) At a temperature of about 5°C, the cleaning power of perchlorethylene is approximately the same as that of Freon 113, and is sufficiently safe for delicate clothing materials.

I understand.

From the above results, as a means to solve the above problems, a processing tank that stores clothing and processes it internally, a tank that stores a solvent,
In the dry cleaning apparatus using perchlorethylene solvent, which comprises a device for supplying a solvent from the tank to the processing tank, a solvent recovery device for guiding the used solvent from the processing tank and returning it to the storage tank, etc., the processing tank The dry cleaning apparatus is equipped with a means for adjusting the temperature of the solvent supplied to the dry cleaning apparatus to a temperature suitable for clothing materials, processing, etc.

To specifically illustrate this, (11) a processing tank for storing and processing clothing, a tank for storing a solvent, a device for supplying the solvent from the tank to the processing tank,
In a dry cleaner using perchlorethylene solvent, which is comprised of a solvent recovery device, etc. that leads used solvent from the processing tank and returns it to the storage tank, the solvent is supplied from the solvent tank that stores the solvent at room temperature to the processing tank. A solvent temperature regulator that can cool or heat the solvent to the required temperature is provided in the route or the route where the solvent circulates, such as treatment tank - button trap - pump - filter treatment tank, or treatment tank - button trap - pump - treatment tank. A dry cleaner characterized by cleaning at any solvent temperature.

(2) A dry cleaner that also uses perchlorethylene solvent, by including the solvent storage tank at room temperature to 40°C level and at least one solvent storage tank controlled at a lower temperature level than the solvent tank. , a dry cleaner that cleans by using different solvents at different temperatures as necessary.

(3) Furthermore, in addition to the above-mentioned functions, that is, in addition to the solvent storage tank at room temperature to 40°C level, it is equipped with a solvent storage tank that is controlled at least at a lower temperature level, and at the same time,
A solvent temperature regulator capable of cooling or heating the solvent to a required temperature is provided in the route for supplying the solvent from each tank containing the solvent to the processing tank or in the route for circulating the solvent from the processing tank to the processing tank. A dry cleaner characterized by cleaning at any solvent temperature.

etc.

(Effect) Figure 7 shows the results of a comparison test of the cleaning power of various solvents.
It can be seen that perchlorethylene C has a cleaning power comparable to that of Freon 113.

On the other hand, in tests using delicate clothing materials and wash test cloths, petroleum-based ζ CFC 113 = 5℃ perchlorethylene > normal temperature perchlorethylene in terms of safety (no clothing accidents), and room temperature perchlorethylene in terms of detergency. 〉
5℃ Perchlorethylene≧Freon 113>Petroleum-based.

Taking these safety and cleanability into consideration, the following conclusions were reached.

(11) Delicate clothing can be safely cleaned by washing with perchlorethylene at about 5°C.

(2) For ordinary clothing, the conventional cleaning effect can be obtained by washing it with perchlorethylene at around room temperature.

(Example) Here, if we list the characteristic points of the present invention again, +11
A conventional dry cleaning system (Figure 4) is used, using perchlorethylene as the solvent.

(2) Therefore, the above system is provided with the ability to arbitrarily adjust the temperature of perchloroethylene, which is a solvent.

(3) When cleaning delicate clothing, the temperature of perchlorethylene is adjusted to about 5°C (in the range of 0 to 10°C) by operating the above function, and then used for cleaning.

(4) For general practical clothing, the perchlorethylene temperature is adjusted to about room temperature to 40'C level.

Hereinafter, the present invention will be specifically explained based on illustrated embodiments.

1 and 3 show different typical embodiments of the present invention, and the main differences between the embodiment device in FIG. 1 and the conventional device in FIG. 4 are as follows: The point is that a solvent temperature regulator 60 is provided before the solvent 4 is supplied to the processing tank 10. As shown in FIG. 2, the solvent temperature regulator 60 is composed of a refrigerator 62, a refrigerant supply pipe 63, a solvent cooler 61, a heat medium supply pipe 65, and a solvent heater 64.
As mentioned above, the temperature of the solvent supplied to the processing tank 10 is adjusted to about 5°C when cleaning delicate clothing, and from room temperature to about 40°C when cleaning practical clothing.

FIG. 3 shows another embodiment of the present invention, and the main difference between the device of this embodiment and the conventional device shown in FIG. 56 is attached. When cleaning delicate clothing, the solvent 4 in the tank 3 is guided to the low-temperature solvent tank 55 through its own weight or through the pump 70 and extraction valve 53, and the temperature of the solvent in the low-temperature solvent tank 55 is controlled using the refrigerator 62 and refrigerant supply pipe 63. Adjust the temperature to about 5℃, and then apply the valve 5.
The solvent is supplied to the treatment tank 10 via a path consisting of a pump 6, a valve 7, a filter 8 or a valve 9.

On the other hand, when cleaning practical clothing, the solvent 4 is guided through the extraction valve 54 to the high temperature solvent tank 56, and the solvent temperature is adjusted to about room temperature to 40°C using a heat medium, such as water vapor, supplied from the heat medium supply pipe 65. , this is supplied to the processing tank 10 through the same route as above. Note that the operating operations after this step are the same as those already described using FIG. 4. Further, in the embodiment shown in FIG. 3, the case where there is one low temperature solvent tank 55 whose temperature is controlled to about 5° C. is explained.
For example, if necessary, the second. If a third low-temperature solvent tank is provided and the temperature of each solvent is individually controlled, for example, at 10° C. and 15° C., even more fine-grained control of cleaning quality becomes possible.

Furthermore, the present invention is not limited to the above embodiments,
Various changes can be made without departing from the spirit thereof. For example, although not shown, the solvent temperature adjustment device of the first embodiment can be combined with the high and low temperature solvent tanks of the second embodiment to accurately control the solvent temperature.

(Effects of the Invention) As described in detail above, according to the present invention, perchlorethylene, which is a solvent conventionally considered unsuitable for delicate clothing, is used to control the temperature of the solvent supplied to the processing tank ( In other words, by adjusting the temperature during cleaning,
Based on this, it was found that it is possible to apply this method, and by adding a means to adjust the temperature of the solvent supplied to the perchlorethylene treatment tank to a conventional dry cleaner, a single device can be used to manufacture various types of clothing. We are now able to adapt to materials, processing, and forms.

[Brief explanation of drawings]

Fig. 1 is a system diagram of a dry cleaner according to a first embodiment of the present invention, Fig. 2 is a conceptual diagram of the configuration of a solvent temperature regulator attached to the dry cleaner, and Fig. 3 is a system diagram of a dry cleaner according to a second embodiment of the present invention. FIG. 4 is a system diagram of a conventional dry cleaner, FIGS. 5 and 6 are system diagrams for explaining the dry cleaning process using turpentine (petroleum-based solvent), and FIG. The figure is a diagram comparing the cleaning power of various solvents. Explanation of the main parts of the diagram 2 - Clothes 4 - Solvent 10 - Processing tank 23 - Solvent piping 29 - Water piping 53, 54 - Extraction valve 56 - High temperature solvent tank 3 - Solvent Storage tank 5 - Valve 22 - Water separator 27 - Condenser 51, 52 - Valve 55 - Low temperature solvent tank 60 - Solvent temperature regulator 61 - Solvent cooler 63 - Refrigerant supply pipe 65 - - Heat medium supply pipe 62 - Refrigerator 64 - Solvent heater

Claims (1)

[Claims] A processing tank for storing and internally processing clothing, a tank for storing a solvent, a device for supplying the solvent from the tank to the processing tank,
In a dry cleaning device using perchlorethylene solvent, which is comprised of a solvent recovery device etc. that leads used solvent from the processing tank and returns it to the storage tank, the temperature of the solvent supplied to the processing tank is adjusted to suit clothing materials, processing, etc. A dry cleaning device characterized by comprising means for adjusting the temperature to a suitable temperature.