Garment for layering, and outwear and inner layer wear to be used in garment for layering

Abstract

The object of the invention to provide a garment for layering having better ventilation performance than conventional counterparts, and an outerwear and an inner-layer wear to be used in this garment for layering. The present invention provides a garment for layering including an outerwear, and one or more inner-layer wears worn inside the outerwear, the outerwear and at least one inner-layer wear having a vent that can be opened and closed.

Claims

1. A clothing layering system for layering comprising five different types of clothing, namely: a first base layer interior side directly contacting skin; a second base layer worn over said first base layer and designed for wicking sweat away, retaining heat and adjusting moisture; a first inner layer worn over said second base layer, and designed for wicking sweat away and retaining heat; a windproof, heat-retaining and moisture-permeable second inner layer worn over said first inner layer; and a windproof and waterproof outerwear worn over said second inner layer; wherein said outerwear comprises one or more than one vent that designed for being opened and closed, said second inner-layer comprises one or more than one vent that designed for being opened and closed, said first inner-layer comprises one or more than one vent that designed for being opened and closed, said vent of said outerwear, said vent of said second inner-layer, said vent of said first inner-layer and said vent of said second base layer are positioned so as to coincide with or close each other when said clothing layering system is worn, and said first base layer directly contacting skin does not comprise a vent that designed for being opened and closed, wherein said vent of said second inner-layer, and said vent of said first inner-layer are designed for being opened and closed through said vent of said outer layer when said clothing layering system is worn, depending on use environment, and said skin is protected by said first base layer when said vent of said outerwear, said vent of said second inner-layer, and said vent of said first inner-layer are opened.

2. The clothing layering system according to claim 1, wherein said vent of said outerwear, said vent of said second inner-layer and said vent of said first inner-layer are positioned in a front part thereof.

3. The clothing layering system according to claim 1, wherein said vent of said outerwear and said vent of said second inner-layer and said vent of said first inner-layer are positioned in said front part thereof except for portions of armpits.

4. The clothing layering system according to claim 1, wherein the first base layer comprises a water-repellant function.

5. A clothing layering system for layering comprising four different types of clothing, namely: a base layer interior side directly contacting skin; a first inner layer worn over said base layer, and capable of wicking sweat away and retaining heat; a windproof, heat-retaining and moisture-permeable second inner layer worn over said first inner layer; and a windproof and waterproof outerwear worn over said second inner layer; wherein said outerwear comprises one or more than one vent that designed for being opened and closed, said second inner-layer comprises one or more than one vent that designed for being opened and closed, said first inner-layer comprises one or more than one vent that designed for being opened and closed, said vent of said outerwear, said vent of said second inner-layer, and said vent of said first inner are positioned so as to coincide with or close to each other when said clothing layering system is worn, and said base layer directly contacting skin does not comprise a vent that designed for being opened and closed, wherein said vent of said second inner-layer, and said vent of said first inner-layer are designed for being opened and closed through said vent of said outer layer when said clothing layering system is worn, depending on use environment, and said skin is protected by said base layer when said vent of said outerwear, said vent of said second inner-layer, said vent of said first inner-layer are opened.

6. The clothing layering system according to claim 5, wherein said base layer comprises function of a water repellant.

7. The clothing layering system according to claim 5, wherein said vent of said outerwear, said vent of said second inner-layer and said vent of said first inner-layer are positioned in a front part thereof.

8. The clothing layering system according to claim 5, wherein said vent of said outerwear and said vent of said second inner-layer and said vent of said first inner-layer are positioned in said front part thereof except for portions of armpits.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a diagram illustrating an example of the shape and position of vents.

(2) FIG. 2 is a diagram illustrating an example of the shape and position of a vent.

(3) FIG. 3 is a diagram illustrating an example of the shape and position of a vent.

(4) FIG. 4 is a diagram illustrating an example of the shape and position of a vent.

(5) FIG. 5 is a diagram illustrating an example of the shape and position of a vent.

(6) FIG. 6 is a diagram illustrating an example of the shape and position of a vent.

(7) FIG. 7 is a diagram illustrating an example of the shape and position of vents.

(8) FIG. 8 is a diagram illustrating an example of an open state of vents.

(9) FIG. 9 is a diagram illustrating an example of an open state of a vent.

(10) FIG. 10 is a diagram illustrating an example of an open state of a vent.

(11) FIG. 11 is a diagram illustrating an example of an open state of a vent.

(12) FIG. 12 is a diagram illustrating an example of an open state of a vent.

(13) FIG. 13 is a diagram illustrating an example of an open state of a vent.

(14) FIG. 14 is a diagram illustrating an example of a layered state.

(15) FIG. 15 is a diagram illustrating an example of a layered state.

MODE FOR CARRYING OUT THE INVENTION

(16) (Outerwear and Inner-Layer Wear)

(17) The outerwear should preferably have various functions including, for example, but not particularly limited to, protection from cold, wind, and water, and resistance to rain. The inner-layer wear is configured by a base layer on the skin and a mid layer worn between the base layer and the outerwear. The base layer and the mid layer may be configured by clothing having various different functions to serve their purposes, or may be configured by a plurality of garments worn together depending on needs. Examples of functions the base layer may have include water repellency, heat retention, sweat wicking, and moisture adjustment, etc. For example, a first base layer having water repellency and a second base layer providing heat retention, sweat wicking, and moisture adjustment, may be worn either alone or in layers as the base layer. Examples of functions the mid layer may have include heat retention, sweat wicking, protection from wind, moisture permeability, and protection from water, etc. For example, a first mid layer providing heat retention and sweat wicking, and a second mid layer providing protection from wind, heat retention, and waterproof moisture permeability may be worn either alone or in layers as the mid layer. The base layer and the mid layer are not limited to those having the functions mentioned above. Some of the functions may be omitted, or other functions may be added in accordance with the purposes of use.

(18) The outerwear and the inner-layer wear are not limited to clothing for upper body, and may be clothing for lower body such as tights or trousers, for example, or for the whole body. The outerwear for lower body may be, for example, thermal, windproof, and waterproof trousers, and the inner-layer wear for lower body may be, for example, tights, leggings, half pants, etc.

(19) The thread materials or sewing techniques of the outerwear, inner-layer wear (mid layer), and base layers forming the clothing system are not limited to particular types. Various processing (for providing water repellency, UV protection, etc., for example) may be performed as required.

(20) (Vents)

(21) Vents are provided for the outerwear and the inner-layer wear to exhibit a ventilation function. Vents may be provided anywhere including, but not particularly limited to, a front part (front side or front body), a back part (back side or back body), a side part (sides of waist or underarm parts), upper arms and the like, in the case of clothing for upper body. In a preferred embodiment, the outerwear may preferably have a vent positioned in a front part thereof, and the inner-layer wear may have a vent in a front part at a position corresponding to the vent of the outerwear, so that the vents are more exposed to air currents or wind from the front, the body temperature quickly goes down, and the sweat quickly dries up. In the case of clothing for lower body, for example, a front part (front side), a side part (sides), and a back part (backside) of thighs or lower legs may have a vent.

(22) If the vents are each to be provided in the respective front parts, the vents should preferably be provided in the front parts except for parts from shoulders to armpits. This is because if a sack or backpack is being carried on the parts from the shoulders to armpits, so that vents, even if provided in these parts, would have a small open area and can provide less ventilation effect, and would also be hard to open and close.

(23) The shape of the vents is not particularly limited and may be, for example, a straight line, a curved line, polygonal, circular, oval, or any irregular shapes. The opening shape of the vents when opened is not particularly limited and may be oval, circular, polygonal, or any irregular shapes. The number of vents per layer should preferably be one or two, but may be more than that, and vents of several types of shapes may be combined. The vents in layers may have the same shape, or different shapes.

(24) FIG. 1 to FIG. 7 illustrate examples of positions of the vents. FIG. 1 shows a pair of vents 11 and 12 extending in an inverted truncated V shape from under the chest toward both sides in the front part. FIG. 2 shows a vent 13 in an inverted L shape in the chest. FIG. 3 shows a vent 14 in an upward circular arc shape in the chest. FIG. 4 shows a linear vent 15 in a side. FIG. 5 shows a linear vent 16 in the lower side of an arm. FIG. 6 shows a linear vent 17 extending from the lower side of an arm to the side via the armpit. FIG. 7 shows a linear vent 18 in the chest and a linear vent 19 in the side. The shape and position of the vents are not limited to the shapes, sizes, and positions shown in FIG. 1 to FIG. 7.

(25) FIG. 8 to FIG. 13 illustrate examples of open states of the vents of FIG. 1 to FIG. 7. FIG. 8 to FIG. 10 show examples of open states 111 and 121 of the inverted truncated V-shaped vents 11 and 12, FIG. 8 being a front view and FIG. 9 and FIG. 10 being side views. FIG. 10 shows a state in which a central portion is fastened so as to form two openings. FIG. 11 shows one example of an open state 131 of the inverted L-shaped vent 13 in the chest. FIG. 12 shows one example of an open state 141 of the upward circular arc vent 14. FIG. 13 shows one example of a fully opened state 151 of the linear vent 15 in the side. The open states of vents are not limited to those of FIG. 8 to FIG. 13.

(26) Different shapes may be used in combination for vents in the outerwear and inner-layer wear, or in a plurality of inner-layer wears. For example, an inverted truncated V-shaped vent may be employed as the vent in the outerwear, while another inverted truncated V-shaped vent smaller than the one in the outerwear, or a linear vent in the chest, or a linear vent in a side, may be employed as the vent in the mid layer. The inverted truncated V-shaped vent in the outerwear and the linear vent in the chest of the mid layer or the linear vent in the side of the mid layer should preferably be positioned close to each other. Alternatively, the vents in the outerwear and the mid layer should preferably have their openings overlapped upon one another.

(27) Openable fasteners should preferably be used so that the vents can be opened and closed. Examples of such fasteners include common buttons, point fasteners (such as snap buttons), line fasteners (such as zippers), or surface fasteners (such as Magic Tape). Any of these may be used alone, or two or more of these may be used in combination as required. The opening degree of the vents is not limited to be fully open. The vents may be opened partly, or partly closed by a fastener. The openable part of the vents may be configured to be opened and closed so as to utilize friction between the fabrics or designs of the garments, examples including a configuration in which the openable parts are fastened such that the fabrics overlap each other, and a configuration in which one fabric has a tongue while the other fabric has a slit so that the tongue can be inserted into the slit and folded back and fastened.

(28) The vent may also be a mesh or breathable bag member (pocket) or a piece of fabric removably attached as backing or lining, or sewed or otherwise fixedly attached. The vent can exhibit its ventilation function when opened through the bag member or fabric. Also, the vent may function as a pocket.

(29) The vent in the outerwear should preferably be positioned at the same position of, or close to the vent in at least one inner-layer wear when the clothing system is worn. With the respective vents being at the same position or close to each other, their ventilation function can be effectively exploited when the respective vents are open. Wherever the respective vents are positioned, the shape, size, and the like of the vents need not be the same, and the shape, size, and the like of the vents in the open state need not be the same, either. The respective vents should preferably be configured to be opened and closed so as to allow the wearer to select the degrees of opening of the respective vents so that the wearer can maintain, or quickly improve, the moisture and temperature condition inside the garments as desired.

(30) FIG. 14 and FIG. 15 illustrate an example of layering of an outerwear 1 as the outermost layer, a mid layer 2 as the intermediate layer, and a base layer 3 directly contacting the skin. As shown in FIG. 14, the outerwear 1 includes a pair of inverted truncated V-shaped vents 12 (only one of the pair being shown in FIG. 14), and the mid layer 2 similarly includes a pair of inverted truncated V-shaped vents 22 (only one of the pair being shown in FIG. 14). Both vents have a line fastener (zipper) as a fastener. FIG. 15 shows the vents 12 and 22 in the outerwear 1 and the mid layer 2 in an open state, with the three types of clothing noted above worn in layers.

(31) For better ventilation performance, an inner-layer wear having a vent directly below the vent in the outerwear should preferably be worn. The vents should preferably be provided to garments made of a waterproof, windproof, and low moisture-permeable or low breathable fabric. Another garment (inner-layer wear) having moisture permeability and/or breathability may be worn between the outerwear having a vent and the inner-layer wear having a vent. The base layer directly contacting the skin may not necessarily include an openable vent and may be made of a moisture-permeable and/or breathable fabric.

(32) The position of the vent in the inner-layer wear should preferably be determined such that it can be opened and closed by opening the vent in the outerwear when both garments are worn. That is, the wearer can open the vent in the outerwear and insert his/her hand into the opening to open the vent in the inner-layer wear, so that the vent in the inner-layer wear can be opened and closed simply and quickly without taking off the outerwear.

EXAMPLES

(33) Two types of base layers, two types of mid layers, and an outerwear, i.e., a total of five types of clothing were worn in layers, and both the temperature and moisture were measured to evaluate the ventilation performance in each of the conditions where all the vents in the two types of mid layers and the outerwear were fully open (Example 1), where only the vent in the outerwear was fully open (Comparative Example 1), and where the vents were fully closed (Comparative Example 2).

(34) A thermal manikin was dressed with a first base layer processed to have a water repellent side on the skin (DRY LAYER, 100% polyester, by finetrack Co., Ltd.) and a second base layer capable of wicking sweat away, retaining heat, and adjusting moisture (BASE LAYER, 17% wool, 83% polyester, by finetrack Co., Ltd.) over the first base layer, as the base layer. The manikin was then dressed with a first mid layer capable of wicking sweat away and retaining heat (MIDDLE LAYER, 100% polyester, by finetrack Co., Ltd.) over the base layer, and further with a windproof, heat-retaining, and moisture-permeable second mid layer (mid shell, outer: 100% polyester, lining: 100% polyester laminated with a waterproof moisture-permeable film by finetrack Co., Ltd.) thereon, as the mid layer. The manikin was further dressed with a thermal, windproof, and waterproof outerwear (OUTER SHELL, outer: 100% nylon, lining: 100% polyester laminated with a waterproof moisture-permeable film by finetrack Co., Ltd.) over the mid layer. The vents were both inverted truncated V-shaped vents extending from under the chest to the sides as shown in FIG. 1, with zippers as fasteners, and designed to have the same opening size.

(35) (Measurement Condition)

(36) The surface temperature of the thermal manikin was set to 36 C., while the ambient temperature around the manikin was set to 10 C., with wind blowing toward the front part of the manikin at a speed of 2 m/sec. The water content of the second base layer was adjusted to 100% (the water content indicating the maximum amount of moisture the entire clothing system can absorb).

(37) (Comparison of Humidity (Heat and Moisture) Reduction Effect)

(38) A hygrometer was inserted between the first base layer and the second base layer, and the humidity was measured at a timing when the measurements became substantially steady (about 15 minutes later). The results were 63.0% RH in Example 1 with all the vents fully open, 77.0% RH in Comparative Example 1 with only the vent in the outerwear fully open, and 88.3% RH in Comparative Example 2 with all the vents closed. The humidity was reduced more in Example 1 than Comparative Example 1 by 14%, which confirmed that heat and moisture were removed more quickly to achieve a comfortable condition inside the clothing in Example 1 as compared to Comparative Example 1.

(39) (Comparison of Temperature Reduction Effect)

(40) A thermometer was inserted between the second base layer and the first mid layer, and the temperature was measured at a timing when the measurements became substantially steady (about 15 minutes later). The results were 19.1 C. in Example 1 with all the vents fully open, 23.7 C. in Comparative Example 1 with only the vent in the outerwear fully open, and 27.0 C. in Comparative Example 2 with all the vents closed. The temperature was reduced in Example 1 than in Comparative Example 1 by 4.6 C., which confirmed that the temperature that is felt hot could be quickly reduced to a temperature that is felt comfortable during exercise in Example 1 as compared to Comparative Example 1.

DESCRIPTION OF REFERENCE SIGNS

(41) 1 outerwear

(42) 2 mid layer

(43) 3 base layer

(44) 11, 12 inverted truncated V-shaped vent

(45) 111, 121 open state of inverted truncated V-shaped vent