JP6656524B2 - Water repellent clothing manufacturing method and water repellent clothing manufacturing system - Google Patents

Description

  The present invention relates to a method for manufacturing a water-repellent garment and a system for manufacturing a water-repellent garment, and more particularly to a method for manufacturing a water-repellent garment and a system for manufacturing a water-repellent garment, which performs a water-repellent process on the garment to produce a water-repellent garment having water repellency. .

  A water-repellent garment having water repellency is generally manufactured by cutting and sewing a cloth subjected to a water-repellent treatment by fixing a water-repellent agent on a surface.

  By the way, since the water repellent treatment is performed on the surface of the cloth, the cut surface of the cloth to which the water repellent is not fixed may be exposed to the outside of the clothing by cutting the cloth. Further, at the time of sewing, a sewing thread or a patch cloth to which the water repellent is not fixed may be mixed.

  Therefore, in the case of the garment manufactured by such a method, there is a possibility that the garment may be immersed in water from a trimming surface or a sewing thread exposed to the outside, and it is assumed that a desired water repellency cannot be obtained.

  As a countermeasure for such a problem, Patent Document 1 proposes a method of manufacturing clothing in which cloth is cut and sewn and a water-repellent finish is applied to clothing completed as a product.

  According to the method for manufacturing clothing of Patent Document 1, a water-repellent solvent prepared with a water-repellent agent and clothing are put into a drum-rotating dyeing machine, and the water-repellent is attached to the clothing. By fixing the agent, a garment having water repellency is manufactured.

JP 2017-40026 A

  By the way, when water-repellent processing is performed on clothing that is completed as a product, the accuracy of the water-repellent processing is reduced because unevenness occurs when the water-repellent solvent is applied depending on the method of performing the water-repellent processing. Is concerned.

  In particular, as in Patent Document 1, when a water repellent is attached to clothes using a drum rotating type dyeing machine, depending on the amount of clothes put into the dyeing machine, the shape of the clothes, etc. It is assumed that the rotation may be biased and the adhesion of the water-repellent solvent may be likely to be uneven.

  The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a method for manufacturing a water-repellent garment and a system for manufacturing a water-repellent garment capable of manufacturing clothing having excellent water repellency. .

  In order to achieve the above object, a method for producing a water-repellent garment according to the present invention is a method for producing a water-repellent garment having a water-repellent property by subjecting the garment to a water-repellent process. Clothes washing step, in a storage tank in which a water-repellent solvent generated by mixing a water-repellent agent is stored, dipping the clothes washed in the clothes washing step for a preset time in a wet state of the clothes. A water-repellent solvent adhering step of adhering a water-repellent solvent to clothes; a water separating step of separating water from clothes to which the water-repellent solvent is adhered in the water-repellent solvent adhering step to leave a water-repellent agent on the clothes; A clothes drying step of drying the clothes from which moisture has been separated in the step, and a clothes heating step of heating the clothes dried in the clothes drying step at an arbitrary temperature to fix the water repellent to the clothes. And

  According to this method of manufacturing water-repellent garment, the garment washed and wet in the garment washing step is immersed in the storage tank in which the water-repellent solvent is stored. Water solvent easily penetrates. Thereby, the water-repellent solvent can be evenly attached to the clothing.

  Then, after drying the clothes in which water is separated and the water repellent remains, the clothes are heated in the clothes heating step, and the water repellent is firmly adhered to the clothes. Clothing having high water repellency and good water repellency can be manufactured.

  In particular, the clothing heating step of the method for producing water-repellent clothing is characterized in that the clothing is heated at 140 to 160 ° C. This is characterized by being performed by a heating device including a mounting section to be mounted and a heating section arranged with a predetermined separation distance from the mounting section.

  As a result, the heating temperature of the heating unit disposed at a position having a preset separation distance from the placement unit is set to 140 ° C. to 160 ° C., and the clothes are placed on the placement unit in a planar shape. Therefore, the entire clothing is uniformly heated by the heating unit, and the water repellent can be firmly fixed uniformly over the entire clothing.

  In addition, a fluorine-based water repellent is used as the water repellent. Since the fluorine-based water repellent is easily available, it is possible to suppress the procurement cost of materials when manufacturing water-repellent clothing having water repellency.

  In order to achieve the above object, a water-repellent garment manufacturing system according to the present invention provides a water-repellent garment manufacturing system for performing water-repellent processing on garments that have undergone sewing processing to produce water-repellent garments having water repellency. A washing device for washing the washing device, the clothes washed by the washing device are immersed for a preset time in a state where the clothes are wet, and a water-repellent solvent generated by mixing a water-repellent agent is stored. A storage tank, a dehydrating device that separates moisture from the clothing to which the water-repellent solvent is attached by being immersed in the storage tank, and leaves a water-repellent agent on the clothing, and a drying device that dries the clothing from which the moisture has been separated by the dehydrating device. And a heating device for heating the clothes dried by the drying device at an arbitrary temperature to fix the water repellent to the clothes.

  According to this water-repellent garment manufacturing system, the garment washed and wet by the cleaning device is immersed in the storage tank in which the water-repellent solvent is stored. Easily penetrates. Thereby, the water-repellent solvent can be evenly attached to the clothing.

  Then, after drying the clothes in which water is separated and the water repellent agent remains, the clothes are heated by a heating device, and the water repellent agent is firmly fixed to the clothes. It is possible to manufacture clothes having good water repellency and subjected to water repellency.

  According to the present invention, it is possible to manufacture clothing having good water repellency, which has been subjected to highly accurate water repellency without unevenness.

It is a figure explaining the outline of the garment to which water repellency processing is given in the water repellent garment manufacturing system concerning this embodiment. FIG. 2 is a block diagram schematically illustrating a configuration of a water-repellent garment manufacturing system according to the embodiment. Similarly, it is a top view explaining the outline of the composition of the storage tank of the water-repellent garment manufacturing system concerning this Embodiment. FIG. 3 is a diagram schematically illustrating a configuration of a drying device of the water-repellent garment manufacturing system according to the embodiment. Similarly, it is a figure explaining the outline of the composition of the heating device of the water-repellent garment manufacturing system concerning this Embodiment. Similarly, it is a flowchart explaining the procedure of performing a water-repellent process on clothing using the water-repellent clothing manufacturing system according to the present embodiment. It is a flowchart explaining the procedure which performs a water-repellent process in the case of performing a dehydration and a drying process after a clothing washing | cleaning process with respect to an intermediate clothing.

The present invention has the following configuration.
[Item 1]
In the method for producing a water-repellent garment,
A preparation process for preparing intermediate clothing at a stage where sewing is completed,
A washing step of washing the intermediate garment,
A first dehydration step of dehydrating the washed intermediate garment,
A first drying step of drying the dehydrated intermediate garment,
A immersion step of immersing the intermediate garment for a preset time in a storage tank in which a water-repellent solvent generated by mixing a water-repellent agent is stored,
A second dehydration step of separating water from the intermediate garment to which the water-repellent solvent has adhered in the immersion step and leaving the water-repellent agent on at least the surface of the garment;
A second drying step of drying the intermediate garment from which the water has been separated in the second dehydration step;
A fixing step of heating the intermediate garment dried in the second drying step at an arbitrary temperature to fix the water repellent to the intermediate garment;
A decorating step of attaching a decorative article to the intermediate garment after the fixing step.
[Item 2]
The second dehydration step is characterized in that the moisture is separated such that the residual moisture content of the intermediate garment is 80 wt% to 120 wt%.
A method for producing the water-repellent garment according to claim 1.
[Item 3]
The second drying step includes heating the intermediate garment at a temperature of 110 ° C. to 130 ° C.
The method for producing a water-repellent garment according to claim 1 or 2.
[Item 4]
The fixing step includes:
The method for producing a water-repellent garment according to any one of claims 1 to 3, wherein the intermediate garment is heated at 150C to 160C.
[Item 5]
The fixing step includes:
A placement section on which the intermediate garment is placed in a plane,
A heating unit disposed with a predetermined separation distance with respect to the mounting unit,
Characterized by being performed by a heating device comprising:
The method for producing a water-repellent garment according to claim 1.
[Item 6]
The method for producing a water-repellent garment according to any one of claims 1 to 5, wherein a fluorine-based water-repellent is used as the water-repellent.
[Item 7]
In a water-repellent garment manufacturing system for producing a water-repellent garment having a water repellency by applying a water-repellent process to the garment,
A washing device for washing the clothes,
The garment washed by the washing device is immersed for a preset time in a state where the garment is wet, a storage tank in which a water-repellent solvent generated by mixing a water-repellent agent is stored,
A dehydration device that separates moisture from the clothing to which the water-repellent solvent is attached by being immersed in the storage tank and that leaves the water-repellent agent on the clothing;
A drying device for drying the clothes from which the water has been separated by the dehydrating device,
A heating device for heating the clothing dried by the drying device at an arbitrary temperature to fix the water repellent to the clothing;
A water-repellent garment manufacturing system, comprising:

  Next, an outline of a water-repellent garment manufacturing system according to an embodiment of the present invention will be described with reference to FIGS.

  Prior to the description of the water-repellent garment manufacturing system according to the present embodiment, an outline of the garment subjected to the water-repellent processing in the water-repellent garment manufacturing system will be described.

  FIG. 1 is a diagram schematically illustrating clothes to be subjected to a water-repellent process in the water-repellent garment manufacturing system according to the present embodiment. As shown, the garment of the present embodiment is slacks 100.

  In the slacks 100, the cloth is cut, the front body 101 and the back body 102 are sewn with sewing threads 103, the pockets 104, 104 and the placket 105 are tailored, and the buttons 106 are sewn. Processing is completed and the product is completed.

  Next, a water-repellent garment manufacturing system according to the present embodiment will be described.

  FIG. 2 is a block diagram schematically illustrating the configuration of the water-repellent garment manufacturing system according to the present embodiment. As illustrated, the water-repellent garment manufacturing system 10 includes a cleaning device 11, a storage tank 12, a dehydrating device 13, a drying device 14, and a heating device 15.

  In this embodiment, a storage tank 12 is disposed downstream of the cleaning device 11.

  FIG. 3 is a plan view schematically illustrating the configuration of the storage tank 12 of the water-repellent garment manufacturing system 10 according to the present embodiment. As shown, the storage tank 12 is formed in a relatively large box shape having a substantially rectangular shape in plan view and an open upper portion.

  In this embodiment, the water repellent solvent W is stored in the storage tank 12, and the slacks 100 that have been washed by the cleaning device 11 and kept wet are stored in the storage tank 12 in which the water repellent solvent W is stored. Dipped. In the present embodiment, a rotary dyeing machine is not used, and the solvent is impregnated by hand-fed (impregnated) in a large commercial water tank as shown. Approximately 20 pants are immersed in a single immersion, and after being rubbed in a cloudy fluorine-based water-repellent solvent, they are soaked for 30 to 40 minutes. When the rotary type is used, centrifugal force is applied to the product in the drum by rotation, and the solvent adheres and permeates in a state where the product is stuck to the circular wall surface in the drum, so that processing unevenness is likely to occur. On the other hand, by using the impregnation method, processing unevenness can be reduced. In addition, in the case of the rotary type, the solvent is discarded after each processing. On the other hand, in the impregnation method, continuous use of about 10 times can be performed while replenishing the solvent and adjusting the concentration, which is excellent in cost.

  The water-repellent solvent W is produced by mixing a water-repellent, and in the present embodiment, a general-purpose fluorine-based water-repellent is used as the water-repellent.

  In the present embodiment, one or more additives are blended with the water repellent, and the water repellent is diluted to a desired concentration according to the material, shape, or amount of the garment such as the slacks 100 to be water repellent. A solvent W is generated.

  In the present embodiment, a dehydrating device 13 is arranged downstream of the storage tank 12 as shown in FIG.

  In the present embodiment, for example, a general-purpose drum rotating type is adopted as the dehydrating device 13, and the dehydrating time, the drum rotation speed, and the like are set in advance according to the material, shape, or amount of clothes such as the slacks 100. It is formed to be possible.

  In the present embodiment, a drying device 14 is disposed downstream of the dehydrating device 13.

  FIG. 4 is a diagram schematically illustrating the configuration of the drying device 14 of the water-repellent garment manufacturing system 10 according to the present embodiment. As illustrated, the drying device 14 includes a rotating drum 14a into which clothes such as slacks 100 are put, a heater 14b for heating the rotating drum 14a, and a control unit 14c for controlling the rotating drum 14a and the heater 14b.

  The drying device 14 controls the rotation speed of the rotating drum 14a, the heating temperature of the heater 14b, or the rotating time of the rotating drum 14a and the heating time of the heater 14b in accordance with the material, shape, or amount of clothing such as the slacks 100 in the control unit 14c. The heating time is formed so that it can be set in advance.

  In the present embodiment, a heating device 15 is arranged downstream of the drying device 14 as shown in FIG.

  FIG. 5 is a diagram schematically illustrating the configuration of the heating device 15 of the water-repellent garment manufacturing system 10 according to the present embodiment. As shown in the drawing, the heating device 15 is disposed with a predetermined separation distance S with respect to the belt conveyor 15a, which is a mounting portion on which clothes such as the slacks 100 are mounted in a plane, and the belt conveyor 15a. And a control unit 15c for controlling the belt conveyor 15a and the heater 15b.

  The belt conveyor 15a is driven from an upstream side indicated by an arrow U to a downstream side indicated by an arrow D, and garments such as slacks 100 placed on the belt conveyor 15a in a planar shape are put into an input section (shown in the drawing). No) to the unloading section E.

  The heater 15b is spaced from the belt conveyor 15a by a distance S, in this embodiment, 10 cm to 15 cm, and is arranged to face the belt conveyor 15a.

  In the present embodiment, the control unit 15c is formed such that the conveying speed of the belt conveyor 15a, the heating temperature of the heater 15b, and the like can be set in advance.

  Next, a procedure for applying a water-repellent treatment to the slacks 100 using the water-repellent garment manufacturing system 10 according to the present embodiment will be described.

  FIG. 6 is a flowchart illustrating a procedure for performing a water-repellent process on the slacks 100 using the water-repellent garment manufacturing system 10 according to the present embodiment.

  As shown, in step S1, first, the slacks 100 are washed by the washing device 11 (clothing washing process). In the present embodiment, in the clothes washing process, the washing device 11 performs the soaping washing process and the rinsing washing process for 15 to 20 minutes to remove dirt, dust, and the like attached to the slacks 100.

  The slacks 100 washed in the clothes washing step are conveyed to the storage tank 12 in which the water-repellent solvent W is stored, without being subjected to dehydration processing and drying processing, while being kept wet with the washing water.

  Subsequently, in step S2, the slacks 100 transported to the storage tank 12 are immersed in the storage tank 12 in which the water-repellent solvent W is stored while being washed and wet by the cleaning device 11, and W is attached (water-repellent solvent attaching step).

  In the present embodiment, the slacks 100 are immersed in the storage tank 12 in which the water-repellent solvent W is stored for 30 to 40 minutes in the water-repellent solvent attaching step. At this time, it is preferable that an operator permeates the slacks 100 with the water-repellent solvent W by fumigation.

  Thereafter, the slacks 100 to which the water-repellent solvent W has been adhered are transported to the dewatering device 13, and in step S3, while the water is separated from the slacks 100 by the dewatering device 13, the water-repellent agent remains on the slacks 100 (water content). Separation step).

  At this time, the spin-drying time, the rotation speed of the drum, and the like are set to desired states according to the material, shape, or amount of the slacks 100.

  After the water separation step, the slacks 100 are conveyed to the drying device 14, and in step S4, the slacks 100 are dried at a low temperature by the drying device 14 (first clothes drying step).

  In the present embodiment, the rotating time of the rotating drum 14a is reduced by rotating the rotating drum 14a without heating the rotating drum 14a by the heater 14b so as to reduce the residual moisture content of the slacks 100 to 10 to 20%. Set by the control unit 14c.

  Subsequent to the first clothes drying step, in step S5, the slacks 100 are dried at a high temperature by the drying device 14 (the second clothes drying step).

  In the present embodiment, the control unit 14c sets the heating temperature of the heater 14b and the rotation time of the rotating drum 14a so as to reduce the residual moisture content of the slacks 100 to 0.5 to 2%.

  The clothes drying first step and the clothes drying second step constitute a clothes drying step.

  After the clothes drying step, the slacks 100 are conveyed to the heating device 15, and in step S6, the slacks 100 are heated by the heating device 15 to fix the water repellent to the slacks 100 (clothing heating step).

  In the present embodiment, the heating temperature of the heater 15b is set to an arbitrary temperature, that is, 140 ° C. to 160 ° C. so that the slacks 100 are heated at a temperature at which the water repellent remaining on the slacks 100 is optimally fixed. Is set in the control unit 15c.

  In the garment heating step, first, the slacks 100 are placed in a plane such that the front body 101 of the slacks 100 is on the upper side in an input section (not shown) of the belt conveyor 15a of the heating device 15, and the belt conveyor 15a is moved upstream. Driven from U to the downstream side D, the slacks 100 are transported from the charging section to the discharge section E.

  While the slacks 100 are being conveyed from the input section to the unloading section E, the slacks 100 of the slacks 100 are separated from the belt conveyor 15a by about 10 cm to 15 cm by the heaters 15b arranged opposite to the belt conveyor 15a by 140 cm. Heated at between -150C.

  After the slacks 100 are conveyed to the unloading section E, the slacks 100 are placed in a plane such that the rear body 102 of the slacks 100 is on the upper side at the input section of the belt conveyor 15a, and the belt conveyor 15a is moved to the upstream side U. The slacks 100 are transported from the charging section to the discharge section E by driving the slacks 100 to the downstream side D.

  While the slacks 100 are being conveyed from the input section to the unloading section E, the slacks 100 are separated from the belt conveyor 15a by about 10 cm to 15 cm at a temperature of 140 ° C. by the heater 15b arranged opposite to the belt conveyor 15a. Heat at ~ 160 ° C.

  As described above, since the heater 15b is disposed at a position separated from the belt conveyor 15a by about 10 cm to 15 cm as described above, the heating device 15 that executes the clothes heating step includes clothes such as slacks 100 at a high temperature of 140 ° C. to 160 ° C. Can be uniformly heated.

  As described above, according to the present embodiment, since the slacks 100 that have been washed and kept wet in the clothing washing step are immersed in the storage tank 12 in which the water-repellent solvent W is stored, the slacks 100 containing water are softened. The water-repellent solvent W easily penetrates into the slacks 100 having the property. Thereby, the water-repellent solvent W can be uniformly attached to the slacks 100.

  Then, after drying the slacks 100 in which the water is separated and the water repellent remains, in the clothing heating step, the front body 101 and the back body 102 of the slacks 100 are heated, respectively, to give the slacks 100 a water repellent. Is firmly fixed, the slacks 100 having good water repellency, which has been subjected to highly accurate water repellency processing without unevenness, can be manufactured.

  In particular, in the present embodiment, the heating temperature of the heater 15b disposed at a position separated from the belt conveyor 15a by about 10 cm to 15 cm is set to 140 ° C. to 160 ° C., and the slacks 100 are planarly placed on the belt conveyor 15a. Since it is placed, the entire slacks 100 are uniformly heated by the heater 15b, and the water repellent can be firmly fixed over the entire slacks 100.

  Further, in the present embodiment, since a general-purpose fluorine-based water-repellent that is easily available is used as the water-repellent, it is possible to reduce the procurement cost of materials when manufacturing the slacks 100 having water-repellency. Can be.

  In the above-described embodiment, the slacks 100 are assumed to be completed as a product by sewing the buttons 106 and the like. It is also preferable to perform a water treatment. In this case, it is possible to prevent the ornament from being broken at the time of washing or being denatured by heating. Further, in the above embodiment, the slacks 100 washed in the clothes washing step are subjected to the water-repellent solvent attaching step in a wet state without performing the dehydration processing or the drying processing. May be performed. FIG. 7 is a flowchart illustrating a procedure for performing a water-repellent process in a case where dehydration and drying are performed on the intermediate garment after the garment washing step.

  In the water-repellent processing procedure shown in FIG. 7, before the clothing washing step of step S1, an intermediate clothing before the attachment such as the button 106 is prepared (step S11). In the clothing washing step of step S1, an intermediate clothing is prepared. Wash clothes. In the clothes washing step, after washing with detergent at a high temperature (eg, 80 ° C.), rinsing is performed at a temperature lower than that at the time of washing (eg, 60 ° C.), and then pH = 4.5 to 5 using a pH adjuster. It is preferred that the adjustment be made to be 0.0.

  Further, after the clothes washing step, the slacks 100 are transported to the dewatering device 13, and in step S12, moisture is separated from the slacks 100 by the dewatering device 13 (first dewatering step). After the first dehydration step, the slacks 100 are conveyed to the drying device 14, and in step 13, the slacks 100 are dried (first drying step). In the first drying step, similarly to the clothes drying first and second steps described above, a high-temperature drying step can be performed after a low-temperature drying step.

  After the first drying step, the process proceeds to step S2, where the water-repellent solvent W is attached to the slacks 100 in a water-repellent solvent attaching step. Here, the water-repellent seat W is diluted to a desired concentration and is mixed with water and a water-repellent (preferably, the pH is adjusted by adding a pH adjuster) to the intermediate clothing. It will be impregnated. Accordingly, the water repellent can be uniformly penetrated into the intermediate garment, and even when the water is separated by the subsequent dehydration treatment, the water repellent can be reliably left at least on the surface.

  After the step of attaching the water-repellent solvent, in step 3, moisture is separated from the slacks 100 by the dehydrating device 13 (second dehydrating step). Here, by adjusting the dehydrating device 13 so that the residual moisture content is 100% by weight (that is, a state in which the same amount of water is contained as the intermediate garment), the water repellent is reliably applied to the intermediate garment. Can be left.

  After the second dehydration step, the intermediate clothing is dried in steps S4 and S5 (second drying step), and in step S6, the intermediate clothing is heated to fix the water repellent to the slacks 100 (fixing step).

  Finally, the accessory such as the button 106 is attached to the slacks 100 as the intermediate garment to complete the slacks 100 as a product (decoration step).

  As described above, since the water repellent can be reliably left on the slacks 100 and fixed, the slacks 100 having good water repellency can be manufactured.

  The present invention is not limited to the above embodiment, and can be variously modified without departing from the spirit of the invention. In the above-described embodiment, the case where the clothing is the slacks 100 has been described. However, the clothing is not limited to the slacks 100, and clothing or jewelry to be subjected to a water-repellent treatment, such as a shirt, a blouse or a cut-and-sew, or shoes or bags. Can be applied to

  In the above embodiment, the case where a fluorine-based water repellent is used as the water-repellent has been described, but various water-repellents such as a silicon resin-based water-repellent can be used.

DESCRIPTION OF SYMBOLS 10 Water-repellent garment manufacturing system 11 Cleaning device 12 Storage tank 13 Dehydration device 14 Drying device 15 Heating device 15a Belt conveyor (placement part)
15b heater (heating unit)
100 Slacks (clothing)
S1 Clothes washing step S2 Water repellent solvent attaching step S3 Water separation step S4 Clothes drying first step S5 Clothes drying second step S6 Clothes heating step

Claims (5)

In the method for producing a water-repellent garment,
A preparation process for preparing intermediate clothing at a stage where sewing is completed,
A washing step of washing the intermediate garment,
A first dehydration step of dehydrating the washed intermediate garment,
A first drying step of drying the dehydrated intermediate garment,
A immersion step of immersing the intermediate garment for a preset time in a storage tank in which a water-repellent solvent generated by mixing a water-repellent agent is stored,
A second dehydration step of separating the water-repellent solvent from the intermediate garment to which the water-repellent solvent has adhered in the immersion step, so that the water-repellent agent remains on at least the surface of the intermediate garment;
A clothing drying first step of drying the intermediate clothing, and a second drying step including a clothing drying second step of drying the intermediate clothing after the clothing drying first step;
The intermediate garment dried in the second drying step is placed on a belt conveyor to be conveyed, and is heated at an arbitrary temperature by a heating device that is separated from the belt conveyor and arranged to face the belt conveyor. Fixing the water repellent to the intermediate garment,
And a decoration step of attaching a decoration on the intermediate garment which has undergone the solid deposition step, the second drying step, the production method of the water repellent clothing, characterized that you heat the intermediate garment 110 ° C. to 130 ° C. . The second dehydration step is characterized in that the water-repellent solvent is separated such that the amount of the water-repellent solvent remaining in the intermediate clothing is 80% by weight to 120% by weight.
A method for producing the water-repellent garment according to claim 1. The fixing step includes:
Method for producing a water-repellent garment of claim 1 or claim 2, characterized in that heating the intermediate garment at 0.99 ° C. to 160 ° C.. The fixing step includes:
A placement section on which the intermediate garment is placed in a plane,
A heating unit disposed with a predetermined separation distance with respect to the mounting unit,
Characterized by being performed by a heating device comprising:
Method for producing a water-repellent garment of claim 1 to claim 3. The method for producing a water-repellent garment according to any one of claims 1 to 4 , wherein a fluorine-based water-repellent is used as the water-repellent.