JP2000051577A - Dry cleaning method and dry cleaning device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a dry cleaning method and a dry cleaning device capable of safely washing an object to be washed by managing moisture. SOLUTION: In order to detect the humidity (relative humidity) of air inside this dry cleaning device in a balanced state with dry cleaning liquid, a hygrometer H is arranged in the dry cleaning device. Also, in order to measure the electric conductivity of the dry cleaning liquid, an electric conductivity meter S is arranged in the dry cleaning device. Then, by checking the humidity and the electric conductivity, appropriately adding water in the range of not making the moisture excessive and managing the moisture in the dry cleaning liquid appropriate, washing is performed so as not to adversely affect the object to be washed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dry cleaning method and a dry cleaning apparatus for performing dry cleaning by performing moisture management.

[0002]

2. Description of the Related Art Conventionally, as a dry cleaning method, there has been a method in which a dry cleaning solvent is added with a few percent of a dry cleaning solvent and a trace amount of water (for example, 10% of the dry cleaning detergent) is added thereto. Known, this is called the charge system.

In this method, a water-soluble stain adhering to an object to be washed is removed from a washing tub (washer) of a dry cleaning machine.
It is a method devised to remove effectively within. However, dry cleaning technology is originally a cleaning method using a non-aqueous solvent in order to wash an object that is not suitable for washing with water. Therefore, excessive addition of water has an adverse effect on the object to be washed (e.g., shape loss, shrinkage, Discoloration, etc.).

Accordingly, it is necessary to control the amount of water to be added to an appropriate amount for the safety of the articles to be washed. For example, the following techniques a) and b) have been proposed. . a) One is by humidity measurement, which is based on Dr.GPFu of the National Institute of Drycleaning (now International Fabricare Institute) in the United States.
It is a practical application of the concept of "solvent-related humidity" devised by lton.

[0005] In other words, this technique refers to the relative humidity (relative relative humidity) of the air when the water vapor pressure among the three components of the object to be washed in the washer of the dry cleaning machine, the dry cleaning solvent, and the air in the space is in an equilibrium state. By measuring the humidity (RH), it is determined whether or not the moisture state (ie, solvent-related humidity) in the dry cleaning solvent is safe for the object to be washed. Basic knowledge of P128-P132).

In connection with this, a technique has been proposed in which a humidity sensor is installed in a solvent tank and an alarm is issued in accordance with the measured humidity (see Japanese Patent Application Laid-Open No. 8-47600). b) Another method is to measure the electric conductivity of the dry cleaning solvent to estimate the moisture contained therein, thereby estimating the safety of the object to be washed.

[0007]

However, the above-mentioned prior art is not always sufficient because of the following problems. Problems in Humidity Measurement The water in the object to be washed, the water in the dry cleaning solvent, and the humidity (water) in the air in the space of the dry cleaning machine have a time lag ( Due to the time lag, there is some anxiety to fully check the safety of the items to be washed.

A hygrometer used in a dry cleaning machine needs to be free from errors and deterioration due to a dry cleaning solvent or its vapor. Molecular sensors cannot be used because they are affected by dry cleaning solvents.

Problems in Electric Conductivity Measurement In this case, the problem of time lag in humidity measurement does not occur. However, unless the composition of the dry cleaning bath (particularly the type and concentration of the detergent for dry cleaning) is kept constant, it becomes impossible to accurately control the water content.
This is because the electrical conductivity depends not only on the moisture but also on the type and concentration of the detergent for dry cleaning.
Practically, it is very difficult to make the composition of the dry cleaning bath constant.

Problems Regarding the Safety of Washable Items The safety of the wash items is not sufficient, for example, even if the above-mentioned problems can be solved. For example, the water content of the dry cleaning bath is initially set at 7 near the upper limit of the allowable value of the solvent-related humidity.
When it is set to 0 to 75%, when the object to be washed is put in later, humidity increases due to the moisture contained in the object to be washed, and the moisture becomes excessively large, and the object to be washed becomes unsafe. .

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and provides a dry cleaning method and a dry cleaning apparatus capable of safely cleaning an object to be washed by controlling moisture. With the goal.

[0012]

According to the first aspect of the present invention, an electric conductivity of a dry cleaning bath and air in a dry cleaning device in an equilibrium state with the dry cleaning bath are provided. Based on the humidity and
The gist of the present invention is a dry cleaning method characterized by performing moisture management in dry cleaning.

For example, as shown in FIG. 6, there is a certain relationship between the amount of water in perchlorethylene, which is a dry cleaning solvent, and the electrical conductivity and humidity (relative humidity RH).
It is possible to detect the amount of water in the solvent from the electric conductivity and the humidity. Therefore, in the present invention, moisture management is performed based on the electric conductivity of the dry cleaning bath and the humidity of the air in the dry cleaning device.

That is, the moisture in the dry cleaning bath, which is important for the safety of the object to be washed, can be obtained from the humidity of the air in the dry cleaning device. There is a time lag until the equilibrium state is reached, and it takes some time. On the other hand, electrical conductivity responds quickly to changes in moisture,
The accuracy is problematic because the composition changes depending on the composition of the dry cleaning bath.

Therefore, the present invention combines the measurement of the humidity in the air with the measurement of the electric conductivity of the dry cleaning bath,
Water management is performed by combining the advantages of each other's measurement. In other words, by measuring the humidity in the air,
The water (solvent-related humidity) in the dry cleaning bath can be accurately determined, and by measuring the electrical conductivity of the dry cleaning bath, changes in water and the like can be detected quickly, so that accuracy and accuracy can be improved. It is possible to perform moisture management having both quickness and speed.

As a result, it is possible to prevent the water content in the dry cleaning bath from becoming excessive, thereby improving the safety (such as shape loss, shrinkage, and decoloration) of the object to be washed. (2) The first aspect of the present invention is to reduce the solvent-related humidity before putting the article to be washed into the dry cleaning bath to 50% or less.
A step, a second step of placing the object to be washed in the dry cleaning bath to wet the object to be washed, and when washing the object to be washed, the solvent-related humidity after the washing is 50% or less. Thus, there is provided a dry cleaning method including the third step of adding water.

If the main subject of the humidity measurement is the measurement before and after the dry cleaning, it is not necessary to consider the influence of the above-mentioned time lag, and the humidity measurement at this point is not sufficient in terms of the safety of the washing object. Most important. Therefore, in the present invention, first, in the first step, the solvent-related humidity before putting the object to be washed into the dry cleaning bath is set to 50% or less. This is because there is no influence of moisture and the like of the object to be washed before the object to be washed, and the setting of the solvent-related humidity is easy. Specifically, the humidity of the air in the dry cleaning apparatus is measured, and the solvent-related humidity is determined based on the measured humidity. Then, as a result of this measurement, when the solvent-related humidity is significantly lower than 50%, water is added to increase the detergency with water. On the other hand, if it exceeds 50%, the moisture is reduced by using, for example, a hygroscopic material.

Next, in the second step, the object to be washed is placed in a dry cleaning bath, and for example, the rotating drum of the washing tub is rotated for a predetermined time to sufficiently wet the object to be washed. Since the object to be washed usually contains moisture, by performing this treatment, the moisture in the dry cleaning bath increases. In this case, there is no problem if the solvent-related humidity is 75% or less. That is, the reason why the solvent-related humidity is set to 50% or less in the first step is that the value is usually sufficiently 75% or less when the object to be washed is introduced.

Next, in the third step, water is added so that the solvent-related humidity after the washing becomes 50% or less. That is,
The present inventors have found that if water is added so that the solvent-related humidity after washing becomes 50% or less, the solvent-related humidity of the dry cleaning bath during washing becomes 75% or less. Thus, the amount of water added is specified.

More specifically, the amount of water to be added depends on a number of parameters as described in claim 4 below. Therefore, an experiment in which the value of each parameter is different is performed in advance. The amount of water to be added is determined based on the data. In the third step, the term "washing" includes, for example, before or during the rotation of the rotating drum of the washing tub.

According to the above-described method, the object to be washed can be safely washed. (3) The first aspect of the present invention is to reduce the solvent-related humidity before putting the object to be washed into the dry cleaning bath to 50% or less.
A step of placing the object to be washed in the dry cleaning bath to wet the object, and a step of washing the object before washing so that the solvent-related humidity is 75% or less.
And a third step of adding water.

In the present invention, the first step and the second step are the same as those in the third aspect, but only the third step is different. Is added so as to be 75% or less. Thereby, the article to be washed can be safely washed.

In this case, the amount of water to be added is, as described above,
An experiment in which the value of each parameter is different as shown in claim 4 below is performed in advance, and the amount of water to be added can be determined based on the data. In addition, before washing, a certain amount of time can be secured, and the solvent-related humidity can be accurately measured. Therefore, there is an advantage that the amount of water added can be adjusted based on the measurement result.

(4) In the invention of claim 4, when water is added in the third step, the amount of water to be added should be at least the solvent-related humidity before putting the object to be washed into the dry cleaning bath. The dry cleaning method according to claim 2 or 3, wherein the dry cleaning method is determined based on the type of the object to be washed, the amount of the object to be washed, the type of the detergent for dry cleaning, and the concentration of the detergent for dry cleaning. Make a summary.

The present invention exemplifies a method for determining the amount of water to be added in the third step of the second or third aspect of the present invention. Here, at least based on the solvent-related humidity before putting the object to be washed into the dry cleaning bath, the type of the object to be washed, the amount of the object to be washed, the type of the detergent for dry cleaning, and the concentration of the detergent for dry cleaning, Determines the amount of water added.

That is, an experiment was carried out in which the above-mentioned parameters required for determining the amount of water to be added were changed in advance.
Data on what parameters should be added and how much water should be added is obtained. Then, when dry cleaning is actually performed, the amount of water to be added is determined from experimental data according to the state of actual parameters.

In addition to the above parameters, other parameters (for example, the capacity of the washing tub, temperature, room humidity, season, etc.) may be added, or the parameters of the present invention may be changed to other parameters. Good. (5) The invention according to claim 5, wherein the detergent used for the dry cleaning is a dry cleaning detergent (for example, an anionic dry cleaning detergent) which has a high bubbling water speed and a large change in electric conductivity due to moisture in a dry cleaning bath. The gist of the present invention is a dry cleaning method according to any one of claims 1 to 4.

The present invention exemplifies a dry-cleaning detergent to be used. For example, an anionic dry-cleaning detergent has a high foaming water speed, so that the equilibrium state is at a high speed. Therefore, accurate humidity can be obtained early. Further, since the change in electric conductivity due to moisture is large, an accurate electric conductivity, that is, the amount of water can be known.

(6) An electric conductivity measuring means for measuring the electric conductivity of the dry cleaning bath,
Humidity measuring means for measuring the humidity of the air in the dry cleaning device in equilibrium with the dry cleaning bath; electric conductivity measured by the electric conductivity measuring means; and humidity measured by the humidity measuring means. And a control unit for performing moisture management in dry cleaning based on the above.

The present invention shows an apparatus capable of implementing the method of the first aspect of the present invention, and its operation and effect are almost the same as those described above. That is, the electric conductivity of the dry cleaning bath is measured by an electric conductivity measuring means (for example, an electric conductivity meter), and the humidity of the air in the dry cleaning device is measured by a humidity measuring means (for example, a hygrometer). Then, based on both measurement results, control means (for example, an electronic control device using a microcomputer)
Water management in dry cleaning (for example, adding water as necessary) is performed.

As a result, the state of the water content can be accurately and promptly grasped, so that the water content can be safely controlled for the object to be washed. (7) The invention according to claim 7 is provided with an initial humidity means for setting a solvent-related humidity before putting an object to be washed into the dry cleaning bath to 50% or less. The gist of this is a dry cleaning device.

The present invention shows means for reducing the solvent-related humidity to 50% or less by an automatic device. For example, by measuring the humidity of the air in a dry cleaning device, the solvent-related humidity is obtained, and, for example, water is automatically added (or conversely dried to reduce the water) according to the magnitude of the measured value.
Thus, the solvent-related humidity can be set to 50% or less.

(8) The invention of claim 8 provides at least a solvent-related humidity, a type of the object to be washed, an amount of the object to be washed, a type of the detergent for dry cleaning, and a type of the cleaning agent before the object to be washed in the dry cleaning bath. Calculating means for determining the amount of water to be added such that the solvent-related humidity becomes 50% or less after washing based on the concentration of the dry cleaning detergent; and adding means for adding water based on the calculation result by the calculating means. The gist of the present invention is a dry cleaning device according to the sixth or seventh aspect.

[0034] In the present invention, the solvent-related humidity may be set to the value defined in claim 7.
It is a means after automatically or manually setting it to 50% or less. Here, the calculation means calculates at least the solvent-related humidity, the type of the object to be washed, the amount of the object to be washed, the type of the detergent for dry cleaning, and the concentration of the detergent for dry cleaning before putting the object into the dry cleaning bath. Based on the above, the amount of water to be added such that the solvent-related humidity becomes 50% or less after washing is determined. Here, as described in the fourth aspect of the present invention, the necessary amount of water to be added is determined by performing experiments with different parameters in advance, and the amount of water to be added is determined from the actual parameter state. Things.

Then, water is added to the washing tub, for example, by the adding means based on the calculation result by the calculating means. Thereby, the safety of the article to be washed can be improved. (9) The invention according to claim 9 is characterized in that the control means includes abnormality notification means for notifying an abnormality when the electric conductivity becomes a value indicating an abnormality of moisture. The gist is the dry cleaning device according to any one of Items 6 to 8.

In the present invention, when the electric conductivity becomes a value indicating an abnormality of moisture, the abnormality is notified, so that, for example, the amount of moisture does not become excessive and the safety is high. (10) The invention according to claim 10 is characterized in that the control means includes a suppression means for suppressing the addition of water when the electric conductivity becomes a value indicating an excess of water. The gist of the invention is a dry cleaning device according to any one of claims 6 to 9.

In the present invention, when the electric conductivity becomes a value indicating an excess of water, the addition of the water is suppressed (the addition is prohibited or the amount is reduced below a predetermined amount). No safety. (11) The invention according to claim 11, wherein the control means includes abnormality notification means for notifying the abnormality when the humidity becomes a value indicating the abnormality of the moisture. The gist of the present invention is a dry cleaning device according to any one of (1) to (10).

According to the present invention, when the humidity becomes a value indicating an abnormality of moisture, the abnormality is notified, for example, the moisture is not excessive, and the safety is high. (12) The twelfth aspect of the invention is characterized in that the control unit includes a suppression unit that suppresses the addition of moisture when the humidity becomes a value indicating an excess of moisture. The gist is the dry cleaning device according to any one of 6 to 11.

According to the present invention, when the humidity becomes a value indicating an excessive amount of water, the addition of the water is suppressed (the addition is prohibited or the amount is reduced below a predetermined amount). No, high safety. (13) A dry cleaning apparatus according to any one of claims 6 to 12, wherein the hygrometer for measuring the humidity is a ceramic humidity sensor.

The present invention exemplifies a hygrometer,
When a ceramic humidity sensor is used as the hygrometer, the humidity is not deteriorated by a dry cleaning solvent or a dry cleaning detergent, so that the responsiveness is always high and the humidity can be accurately measured. (14) The dry cleaning apparatus according to the thirteenth aspect is characterized in that the humidity meter for measuring the humidity is a ceramic humidity sensor having a heating cleaning mechanism.

Since the hygrometer of the present invention is provided with a heating cleaning mechanism, when the solvent or the detergent adheres and becomes contaminated, the sensor is easily cleaned by heating, so that high responsiveness and high accuracy of the sensor can be easily achieved. You can recover. (15) The invention according to claim 15 is such that the hygrometer for measuring the humidity does not cover the dry cleaning bath.
The gist of the dry cleaning device according to any one of claims 6 to 14, wherein the gland is disposed above a trap (for example, a borane trap) of the dry cleaning device.

The present invention exemplifies a place where the hygrometer is disposed. If the hygrometer is disposed above the trap, the dry cleaning bath is less likely to be applied, so that the hygrometer is less likely to be soiled. Therefore, since it is hard to be affected by the dry cleaning bath, accurate humidity measurement can be performed. Further, since the trap is connected to the downstream side of the washing tub, it is preferable in terms of responsiveness.

(16) The invention according to claim 16 is a sensor of the type wherein the electric conductivity meter for measuring the electric conductivity has a metal parallel plate arranged in the dry cleaning bath and measures the current between the parallel plates. 7. The method according to claim 6, wherein
The gist of the present invention is a dry cleaning apparatus according to any one of (1) to (15).

The present invention exemplifies an electric conductivity meter. Since the present invention is of a metal parallel electrode type, maintenance is easy. This electric conductivity meter is preferably installed in, for example, a pipe at an outlet of a filter because dirt hardly adheres thereto. Here, the dry cleaning bath refers to a liquid for attaching an object to be washed, that is, a cleaning liquid (dry cleaning liquid) used for dry cleaning. Specifically, a dry cleaning solvent is added to a dry cleaning solvent. In particular, in the present invention, the dry cleaning bath contains a predetermined percentage or less (eg, 0.05% or less) of water.

The solvent-related humidity is, as described above,
It shows the state of moisture in the dry cleaning bath.
It should be noted that when simply written as humidity, it means humidity (relative humidity RH).

[0046]

Next, an example (embodiment) of a dry cleaning method and a dry cleaning apparatus according to the present invention will be described with reference to the drawings. (Example) a) First, a dry cleaning apparatus of the present example will be described.

As shown in FIG. 1, the dry cleaning apparatus of this embodiment is a dry cleaning machine having a load of 15 KG specified by JMIS (Japanese Industrial Machinery Standard). The dry cleaning device includes a washing tub (washer) 3 having a rotating drum 1 therein and washing an object to be washed therein, and a dry solvent tank 5 for storing a dry cleaning bath (dry cleaning liquid). Trap (button trap) 7 that complements buttons taken from the item to be washed
And a pump 9 for pumping dry cleaning liquid from a trap, a filter 11 for capturing dust and dirt, and a still 13 for regenerating the dry cleaning liquid.

These are arranged so that the dry cleaning liquid flows in the direction of the arrow in the figure through each pipe. In addition, a pipeline shown by a broken line in the figure is also provided so that air can flow. Further, in the present embodiment, the hygrometer H is disposed in the dry cleaning device in order to detect the humidity (relative humidity RH) of the air in the dry cleaning device in an equilibrium state with the dry cleaning liquid. Is a place shown in the figure (either one of the figures).

Originally, the hygrometer H is optimally arranged in the washing tub 3 in order to know the humidity related to the solvent. The hygrometer is easily contaminated by splashing of the cleaning liquid, and the temperature is increased by the drying process, so that it is difficult to maintain measurement accuracy. For this reason, in the present embodiment, the hygrometer H is arranged at another place where the space in the washing tub 3 is immediately reproduced. Specifically, as shown in the figure, the space is the space of the trap 7 or the space of the dry solvent tank 5. Then, in order to immediately reproduce the space in the washing tub 3, the pipes connecting the spaces are provided, and the air between the spaces is always circulated by a fan or the like.

For example, as shown in FIG. 2, when the hygrometer H is disposed in the trap 7, the hygrometer H is disposed substantially above the entrances and exits 7a and 7b of the dry cleaning liquid and the filter 7c, that is, at a position where the dry cleaning liquid is not applied. I do.
As shown in FIG. 3A, the hygrometer H is an alumina ceramic heater 1 (which is a heating cleaning mechanism).
5, the resistance value changes with humidity (for example, Al ₂
A ceramic humidity sensor 21 composed of an element 17 (made of O ₃ , TiO ₂ , SnO _2, etc.) and an electrode 19 is formed, fixed to a pedestal 23 made of alumina, and housed in a protector 25 made of stainless steel. I have. The hygrometer H is used by being fixed to the tip of the probe 27 as shown in FIG.

Further, in this embodiment, in order to measure the electric conductivity (electrical conductivity) of the dry cleaning liquid, the electric conductivity meter S is disposed in the dry cleaning device.
Examples of the location include the location shown in FIG. 1 (either one of the figures). That is, the electric conductivity meter S
Also, it is optimal to be placed in the washing tub 3, but accurate measurement is difficult because the dry cleaning liquid is very contaminated with dirt from the article to be washed. In order to avoid the problem, in the present embodiment, the electric conductivity meter S is disposed downstream of the filter 11 or in the dry solvent tank 5.

The electric conductivity meter S is of a type in which two parallel metal plates 29a and 29b are immersed in a dry cleaning liquid and the electric conductivity between the two metal plates 29a and 29b is measured. In this embodiment, an electronic control unit (ECU) 31 as shown in FIG. 5 is used to control the dry cleaning device having the above-described configuration.

The electronic control unit 31 includes a well-known CPU 3
1a, ROM 31b, RAM 31c, bus line 31
d, a microcomputer provided with an input / output unit 31e. A hygrometer H and an electric conductivity meter H are connected to the input / output unit 31e as sensors.
Actuators include a valve 33 for regulating the supply of water into the washing tub 3 (in the case of automatic control of the amount of water added), a first alarm lamp 35 indicating an abnormality of moisture by the hygrometer H, and an electric conductivity meter S. Second alarm lamp 3 indicating moisture abnormality due to
7 is connected.

B) Next, a dry cleaning method of this embodiment performed by using the above-described dry cleaning apparatus will be described. Step 1 The solvent-related humidity before putting the object to be washed into the dry cleaning bath is set to 50% RH or less.

Here, first, a dry cleaning detergent is added to a dry cleaning solvent to prepare a dry cleaning liquid, and the dry cleaning liquid is put into a dry cleaning device. In this state, the humidity in the space of the washing tub 3 is measured using the hygrometer H. In this case, since the object to be washed is not put in the washing tub 3, the influence of the moisture of the object to be washed is given. There is no. Further, since the cleaning is not started, even if there is a time lag until the above-mentioned water equilibrium state is reached, the humidity is measured over time, and the humidity shown in FIG. Can be measured. At the same time, the electric conductivity may be measured.

As the dry cleaning detergent to be used, an anionic detergent is used. In particular, a type having a high bubble water speed and a large change in electric conductivity is selected. For example, when the bubble water speed between the detergent A and the detergent B is as shown in Table 1 below, the detergent A is selected. This is because the higher the bubble water speed is, the sooner the equilibrium state is reached, so that the accurate humidity can be quickly determined.

[0057]

[Table 1]

For example, when the electrical conductivity between the detergent A and the detergent B is as shown in FIG. 7, the detergent A having a large change in the electrical conductivity with respect to the amount of water in the dry cleaning liquid is selected. This is because the greater the change in electrical conductivity, the sooner and more accurately the change in water content can be determined.

Second Step Next, the object to be washed is put into the washing tub 3 and the rotating drum 1 is rotated for several seconds, so that the object to be washed is dipped in the dry cleaning liquid and completely wetted. As a result, the water content of the object to be washed is added to the dry cleaning liquid, so that the solvent-related humidity increases accordingly.

Third Step (Washing Step) Next, when the object to be washed is washed (for example, immediately before washing),
Solvent-related humidity after washing is 50% RH or less,
Add water. The amount of this water is determined in advance by experiments. That is, in order to prevent the solvent-related humidity from exceeding 75% RH during the cleaning, the solvent-related humidity after the cleaning must be 5%.
The present inventors have found that water needs to be added so as to be 0% RH or less. Therefore, for example, based on parameters such as the solvent-related humidity before putting the object to be washed into the dry cleaning liquid, the type of the object to be washed, the amount of the object to be washed, the type of the dry cleaning detergent, and the concentration of the dry cleaning detergent. 50% R after washing
The added amount of water that does not exceed H is determined in advance.

Therefore, in actual dry cleaning, the amount of water to be added is determined and water is supplied depending on the above parameters. This water supply
Although a manual operation may be performed, a map based on the experimental data is stored in the ECU 31 in advance, and by inputting each parameter to the ECU 31, an appropriate amount of water is obtained from the map to drive the valve 33. May be performed automatically.

At this time, the humidity and the electric conductivity are checked by the hygrometer H and the electric conductivity meter S. If they are out of the allowable range, the abnormality is judged by the first and second alarm lamps 35, 35. 37. Further, in the case of an apparatus for automatically adding water when an abnormality is detected, the addition of water is prohibited, or the amount of added water is stopped halfway and reduced.

When the water becomes excessive, the object to be washed may be once taken out of the washing tub 3 and the water content of the dry cleaning liquid may be adjusted again. When the moisture is excessive, the moisture can be reduced by using a dehumidifier or the like. Fourth Step (Drying Step) Thereafter, the temperature in the washing tub 3 is raised using a heater (not shown) or the like. The dry cleaning liquid is removed from the washing tub 3 at a timing before the temperature rise.

Fifth Step (Cooling Step) Finally, the heater is turned off to cool down, the object to be washed is taken out of the washing tub 3, and the dry cleaning of this embodiment is completed. By the dry cleaning method described above, washing can be suitably performed by sufficiently adding water. In addition, since water is not added excessively, it is extremely safe for articles to be washed. Further, since the water content is accurately and promptly controlled by the humidity and the electric conductivity, the dry cleaning method is highly safe in that respect.

C) Next, an experimental example performed by the above-described dry cleaning method will be described. FIG. 8 shows changes in humidity and electric conductivity accompanying the experiment. First Step 160 L (liter) of perchlorethylene was used as a dry cleaning solvent, and 0.5% of the detergent A in Table 1 was added as a dry cleaning detergent to obtain a dry cleaning liquid. When the humidity and electric conductivity at this time were measured, as shown in FIG.
H, electric conductivity was 1.8.

Therefore, the condition of the first step of the humidity of 50% RH or less is satisfied. 2nd step 12 kg of the article to be washed is put in the washing tub 3 and the rotating drum 1 is
Was rotated to completely wet the object to be washed with the dry cleaning liquid.

Third Step (Washing Step) Next, 80 g (0.05%) of water was added into the washing tub 3. Thereafter, when the humidity and the electric conductivity were measured, the humidity was 69% RH and the electric conductivity was 2.8. This is below the maximum humidity of 75% RH during washing, which is a safe range.

In this state, the rotating drum 1 was operated for about 8 minutes to perform cleaning. After the washing, the humidity and the electric conductivity were measured. As a result, the humidity was 40% RH, and the electric conductivity was 2.0. Therefore, the humidity after washing in the third step is 5
The condition of 0% RH or less is satisfied.

Fourth Step (Drying Step) Thereafter, as shown in FIG. 8, drying was performed for about 22 minutes. Fifth Step (Cooling Step) Thereafter, as shown in FIG. 8, cooling was performed for about 2.5 minutes, the object to be washed was taken out, and the first dry cleaning (washing) was completed.

When the humidity after taking out the object to be washed was measured, the humidity was 40% RH, which satisfied the condition of 50% RH or less, so that the second washing was possible. In other words, in this experimental example, the humidity was initially 38% R
H, up to 69% RH during washing, 40% R after washing
H or less, and all of the above-described conditions of the present embodiment are satisfied, so that washing can be suitably performed without adversely affecting the article to be washed.

When dry cleaning is actually performed in a cleaning shop, the size of the machine, the amount of solvent,
It is desirable to perform preliminary cleaning once under the above-described conditions in consideration of seasonal fluctuations and the like. As a result, the items to be washed are washed after the conditions are reviewed. In this case, the condition of washing is constantly monitored by a hygrometer or an electric conductivity meter, and when either one exceeds the limit, the object to be washed is immediately taken out to prevent the clothes from being damaged.

The present invention is not limited to the above-described embodiment, and it goes without saying that the present invention can be implemented in various modes without departing from the gist of the present invention. (1) For example, a volume resistance meter may be used instead of an electric conductivity meter. (2) Instead of (or in addition to) the alarm lamp, an alarm buzzer may be used. Further, only one alarm lamp (or alarm buzzer) indicating an abnormality of water may be provided.

[0073]

As described above in detail, in the dry cleaning method and the dry cleaning apparatus of the present invention, by using both humidity measurement and electric conductivity measurement, the moisture state can be accurately and promptly detected. Appropriate moisture management can be performed.

Further, since the water required for cleaning can be sufficiently added to the dry cleaning solvent, the cleaning effect is high. In addition, since water is not added excessively, safe dry cleaning can be performed on the object to be washed.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram illustrating a configuration of a dry cleaning apparatus according to an embodiment.

FIG. 2 is an explanatory diagram showing an installation state of a hygrometer used in the present embodiment.

FIGS. 3A and 3B show a hygrometer used in the present embodiment, wherein FIG. 3A is an explanatory diagram showing a main part of a sensor, and FIG.

FIG. 4 is an explanatory diagram showing an electric conductivity meter used in the present embodiment.

FIG. 5 is a block diagram illustrating an electronic control device used in the present embodiment.

FIG. 6 is a graph showing a relationship between a water content, humidity, and electric conductivity.

FIG. 7 is a graph showing the relationship between the amount of water and the electrical conductivity depending on the type of detergent.

FIG. 8 is a graph showing changes in humidity and electric conductivity in each step.

[Description of Signs] 1 ... Rotating drum 3 ... Washing tub 5 ... Dry solvent tank 7 ... Trap 9 ... Pump 11 ... Filter 13 ... Still 33 ... Valve H ... Hygrometer S ... Electrical conductivity meter

Continuing on the front page (72) Inventor Hideaki Yagi 14-18 Takatsuji-cho, Mizuho-ku, Nagoya-shi, Aichi Japan Inside Japan Special Ceramic Industry Co., Ltd. Reference) 2G060 AA01 AA06 AB02 AC01 AE07 AE17 AE19 AF01 AF07 AG08 AG10 AG11 BA01 BB02 FA01 FA15 FB02 FB04 HC10 HC15 HD01 3B155 AA24 BB08 BB19 CA02 CC05 CC07 CC09 CC11 CC12 CC13 GA08 GC04 JB06 JB22 LCB KB LC

Claims (16)

[Claims] An electric conductivity of a dry cleaning bath,
A dry cleaning method comprising performing moisture management in dry cleaning based on the dry cleaning bath and the humidity of air in a dry cleaning device in an equilibrium state. 2. A first step of reducing a solvent-related humidity before putting an object to be washed into a dry cleaning bath to 50% or less; and placing the object to be washed into the dry cleaning bath to wet the object to be washed. Dry cleaning, comprising: a second step; and a third step of adding water such that the solvent-related humidity after the washing is 50% or less when the object to be washed is washed. Method. 3. A first step of reducing a solvent-related humidity before putting an object to be washed into a dry cleaning bath to 50% or less; and placing the object to be washed in the dry cleaning bath to wet the object to be washed. A second step, wherein the solvent-related humidity is 75% before the object to be washed is washed;
A third step of adding water as described below. A dry cleaning method comprising: 4. In the case where water is added in the third step, the amount of water to be added should be at least the solvent-related humidity, the type of the object to be washed, The dry cleaning method according to claim 2 or 3, wherein the determination is performed based on an amount of the washing, a type of the dry cleaning detergent, and a concentration of the dry cleaning detergent. 5. The dry cleaning detergent according to claim 1, wherein the detergent used for the dry cleaning has a high foaming water speed and a large change in electric conductivity of the dry cleaning bath due to moisture. 4. The dry cleaning method according to any one of 4. 6. An electric conductivity measuring means for measuring electric conductivity of the dry cleaning bath; a humidity measuring means for measuring humidity of air in the dry cleaning device in equilibrium with the dry cleaning bath; A dry cleaning apparatus, comprising: a control unit that performs moisture management in dry cleaning based on electrical conductivity measured by a conductivity measurement unit and humidity measured by the humidity measurement unit. 7. The dry cleaning apparatus according to claim 6, further comprising an initial humidity means for setting a solvent-related humidity before putting an object to be washed into the dry cleaning bath to 50% or less. 8. Based on at least the solvent-related humidity, the type of the object to be washed, the amount of the object to be washed, the type of the detergent for dry cleaning, and the concentration of the detergent for dry cleaning before putting the object into the dry cleaning bath. Calculating means for determining an amount of water to be added such that the solvent-related humidity becomes 50% or less after washing; and adding means for adding water based on a calculation result by the calculating means. The dry cleaning apparatus according to claim 6, wherein: 9. The control device according to claim 6, wherein the control unit includes an abnormality notification unit that notifies the abnormality when the electric conductivity becomes a value indicating the abnormality of the moisture. The dry cleaning device according to any one of the above. 10. The control device according to claim 6, wherein the control unit includes a suppression unit that suppresses the addition of water when the electric conductivity becomes a value indicating an excess of water.
10. The dry cleaning apparatus according to any one of 9 above. 11. The control device according to claim 6, wherein the control unit includes an abnormality notification unit that notifies the abnormality when the humidity becomes a value indicating the abnormality of the moisture. A dry cleaning device according to claim 1. 12. The control device according to claim 6, wherein the control unit includes a suppression unit that suppresses the addition of water when the humidity becomes a value indicating an excessive amount of water. A dry cleaning device according to any one of the above. 13. The hygrometer for measuring the humidity is a ceramic humidity sensor.
13. The dry cleaning device according to any one of 12 above. 14. The dry cleaning apparatus according to claim 13, wherein the hygrometer for measuring the humidity is a ceramic humidity sensor provided with a heating cleaning mechanism. 15. The dry cleaning apparatus according to claim 6, wherein a hygrometer for measuring the humidity is disposed above a trap of the dry cleaning device so as not to cover the dry cleaning bath. A dry cleaning device according to claim 1. 16. The electric conductivity meter for measuring the electric conductivity is a sensor of a type in which a metal parallel plate is arranged in the dry cleaning bath and current is measured therebetween. Item 16. The dry cleaning device according to any one of Items 6 to 15.