EP1698242A1 - Vetement ventile - Google Patents

Vetement ventile Download PDF

Info

Publication number
EP1698242A1
EP1698242A1 EP03786314A EP03786314A EP1698242A1 EP 1698242 A1 EP1698242 A1 EP 1698242A1 EP 03786314 A EP03786314 A EP 03786314A EP 03786314 A EP03786314 A EP 03786314A EP 1698242 A1 EP1698242 A1 EP 1698242A1
Authority
EP
European Patent Office
Prior art keywords
air
conditioning garment
guiding means
undergarment
sending means
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP03786314A
Other languages
German (de)
English (en)
Other versions
EP1698242A4 (fr
Inventor
Hiroshi SEFT DEVELOPMENT LAB. CO. LTD. ICHIGAYA
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Seft Development Laboratory Co Ltd
Original Assignee
Seft Development Laboratory Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Seft Development Laboratory Co Ltd filed Critical Seft Development Laboratory Co Ltd
Publication of EP1698242A1 publication Critical patent/EP1698242A1/fr
Publication of EP1698242A4 publication Critical patent/EP1698242A4/fr
Withdrawn legal-status Critical Current

Links

Images

Classifications

    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41DOUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
    • A41D13/00Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches
    • A41D13/002Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches with controlled internal environment
    • A41D13/0025Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches with controlled internal environment by means of forced air circulation
    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41DOUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
    • A41D31/00Materials specially adapted for outerwear
    • A41D31/04Materials specially adapted for outerwear characterised by special function or use
    • A41D31/14Air permeable, i.e. capable of being penetrated by gases
    • A41D31/145Air permeable, i.e. capable of being penetrated by gases using layered materials

Definitions

  • the present invention relates to an air-conditioning garment used as an auxiliary device which effectively exercises a body cooling function using vaporization heat of sweat that humans originally have.
  • the air conditioner is an expensive apparatus, and its penetration rate for households has been increased, but it is yet to be set in each room in a family unit. Further, since the air conditioner consumes a large quantity of electric power, spread of the air conditioner increases a power consumption in the whole society. Furthermore, under existing circumstances where a fossil fuel accounts for a large percentage of electric power generation, spread of the air conditioner leads to an ironic effect of global warming. Moreover, since the air conditioner cools air itself in a room, there can be considered a problem that excessive cooling ruins health.
  • This cooling garment which consumes a small quantity of power even in a heated term and with which a user can comfortably spend such a season (PCT/JP01/01360).
  • This cooling garment includes a circulation path through which air is circulated between the garment and an undergarment or a body, and air sending means integrally provided with the garment.
  • outside air is taken into the circulation path to be circulated by the air sending means, whereby a body is cooled based on a temperature difference between a body temperature and a temperature of the outside air.
  • a wearer can keep out the heat by just wearing this cooling garment. Therefore, if this cooling garment is widely spread, the air conditioner is almost no longer necessary, thereby greatly contributing to global environment protection.
  • a cooling effect obtained by wearing a cooling garment differs depending on an individual difference or an intended use of a wearer.
  • the sufficient cooling effect may not be obtained unless a large flow quantity of air is caused to flow through a circulation path as compared with a case where a person having a small weight wears the cooling garment.
  • the sufficient cooling effect cannot be obtained unless a large flow quantity of air is caused to flow through the circulation path as compared with a case where he/she is involved in a light duty.
  • this point is not taken into consideration, and air is just caused to flow between the garment and an undergarment or a body.
  • the conventional cooling garment does not include a concept that a later-described physiological cooler using sweat as a coolant is exploited.
  • air having a fixed flow quantity or above which is determined based on conditions such as an ambient temperature, contents of a work performed by a wearer, a weight of the wearer and others must be circulated in order to exploit the physiological cooler.
  • the conventional cooling garment on the premise of circulating just a small amount of air without considering these conditions, the intended sufficient cooling effect cannot be obtained.
  • an object of the present invention to provide an air-conditioning garment capable of expanding a range in which a physiological cooler function originally included in a human body is effectively exercised, with a small power consumption in accordance with an individual difference or an intended use of a wearer.
  • an air-conditioning garment comprising: air guiding means for covering a predetermined part of a body and guiding air along a surface of the body or an undergarment in a space between itself and the body or the undergarment; one or a plurality of air circulating portions which take air flowing in the space between the air guiding means and the body or the undergarment to the outside or take outside air into the space between the air guiding means and the body or the undergarment; one or a plurality of air sending means for forcibly generating a flow of air in the space between the air guiding means and the body or the undergarment; and power supplying means for supplying power to the air sending means, wherein the air sending means generates air flowing with a flow quantity of at least 0.01 liter/second per kg of a weight of a wearer, and the air sending means circulates air in the space between the air guiding means and the body or the undergarment to facilitate vaporization of sweat generated from
  • the air-conditioning garment according to the present invention defined in claim 1 uses, as the air sending means, one which can generate air flowing with a flow quantity of at least 0.01 liter/second per kg of a weight of a wearer. Therefore, since this air-conditioning garment can rapidly vaporize sweat generated from the body, the range in which the physiological cooler function originally included in a human body is effectively exercised can be expanded, thereby demonstrating the sufficient cooling effect.
  • an air-conditioning garment comprising: air guiding means for covering a predetermined part of a body and guiding air along a surface of the body or an undergarment in a space between itself and the body or the undergarment; one or a plurality of air circulating portions which take air flowing in the space between the air guiding means and the body or the undergarment to the outside or take outside air into the space between the air guiding means and the body or the undergarment; one or a plurality of air sending means for forcibly generating a flow of air in the space between the air guiding means and the body or the undergarment; and power supplying means for supplying power to the air sending means, wherein the air sending means circulates air in the space between the air guiding means and the body or the undergarment to facilitate vaporization of sweat generated from the body and expand a range in which a physiological cooler function originally included in a human body is effectively exercised, and the air-condition
  • the air sending means utilizes this outside air to generate air which flows with a flow quantity of at least 0.01 liter/second per kg of a weight of a wearer
  • vaporization heat drawn from the periphery by sweat generated from the body is at least 340 calories/hour per kg of the weight of the wearer. Therefore, the air-conditioning garment according to the present invention defined in claim 2 demonstrates the same function/effect as that of the invention defined in claim 1.
  • an air-conditioning garment comprising: air guiding means for covering a predetermined part of a body and guiding air along a surface of the body or an undergarment in a space between itself and the body or the undergarment; one or a plurality of air circulating portions which take air flowing in the space between the air guiding means and the body or the undergarment to the outside; one or a plurality of air sending means for taking outside air into the space between the air guiding means and the body or the undergarment and forcibly generating a flow of air in the space between the air guiding means and the body or the undergarment; and power supplying means for supplying power to the air sending means, wherein the air sending means generates air flowing with a flow quantity of at least 2 liters/second, and the air sending means circulates air in the space between the air guiding means and the body or the undergarment to facilitate vaporization of sweat generated from the body and expand a range
  • the air-conditioning garment according to the present invention defined in claim 3 demonstrates the same function/effect as that of the invention defined in claim 1.
  • the air sending means sends air with a flow quantity of at least 2 liters/second, a pressure of this air can be used to automatically form a space in which air flows in substantially parallel with the surface of the body or the undergarment between the air guiding means and the body or the undergarment.
  • an air-conditioning garment comprising: air guiding means for covering a predetermined part of a body and guiding air along a surface of the body or an undergarment in a space between itself and the body or the undergarment; one or a plurality of air circulating portions which take air flowing in the space between the air guiding means and the body or the undergarment to the outside or take outside air into the space between the air guiding means and the body or the undergarment; at least two air sending means for forcibly generating a flow of air in the space between the air guiding means and the body or the undergarment; and power supplying means for supplying power to the air sending means, wherein the air sending means is attached at a part close to a rib in a lower portion of the air guiding means on a back side and generates air flowing with a flow quantity of at least 0.01 liter/second per kg of a weight of a wearer, and the air sending means
  • the air-conditioning garment according to the present invention defined in claim 4 demonstrates the same function/effect as that of the invention defined in claim 1.
  • the air sending means since the air sending means is attached at the part close to the rib in the lower portion of the air guiding means on the back side, the air sending means does not become an obstacle even if a wearer leans back in a chair, and the wearer's arm can be prevented from coming into contact with the air sending means during a work.
  • the air sending means cannot be seen when viewed from a front side, thereby improving the appearance of the air-conditioning garment.
  • the air circulating portion is formed at an upper portion of the air guiding means, air can be circulated in substantially all of the body portion covered with the air guiding means.
  • an air-conditioning garment comprising: air guiding means for covering a predetermined part of a body and guiding air along a surface of the body or an undergarment in a space between itself and the body or the undergarment; one or a plurality of air circulating portions which take air flowing in the space between the air guiding means and the body or the undergarment to the outside; one or a plurality of air sending means for taking outside air into the space between the air guiding means and the body or the undergarment and forcibly generating a flow of air in the space between the air guiding means and the body or the undergarment; and power supplying means for supplying power to the air sending means, wherein the air sending means is attached at a back portion of the air guiding means and generates air flowing with a flow quantity of at least 10 liters/second, and the air sending means circulates air in the space between the air guiding means and the body or the undergarment to facilitate
  • the air-conditioning garment according to the present invention defined in claim 5 demonstrates the same function/effect as that of the invention defined in claim 1.
  • the air sending means is attached at the back portion of the air guiding means, and means for generating air flowing with a flow quantity of at least 10 liters/second is used as the air sending means. Therefore, this air-conditioning garment is suitable to be used as a workwear for a standing work, for example.
  • an air-conditioning garment which is put on under an overgarment, comprising: air guiding means for covering a predetermined part of a body and guiding air along a surface of the body or an undergarment in a space between itself and the body or the undergarment; one or a plurality of air circulating portions which take air flowing in the space between the air guiding means and the body or the undergarment to the outside or take outside air into the space between the air guiding means and the body or the undergarment; one or a plurality of air sending means for forcibly generating a flow of air in the space between the air guiding means and the body or the undergarment; and power supplying means for supplying power to the air sending means, wherein the air sending means generates air flowing with a flow quantity of at least 0.01 liter/second per kg of a weight of a wearer, a maximum static pressure of the air sending means is at least 30 pascals, and
  • the air-conditioning garment according to the present invention defined in claim 6 demonstrates the same function/effect as that of the invention defined in claim 1.
  • the air sending means since means having such air sending pressure characteristics as the maximum static pressure is at least 30 pascals is used as the air sending means, the air sending means can assuredly discharge air flowing in the space between the air guiding means and the body or the undergarment into a space between the air guiding means and an overgarment. Therefore, this air-conditioning garment is suitable to be used as an intermediate garment which is put on between the overgarment and the body or the undergarment.
  • An air-conditioning garment according to the present invention is used as an auxiliary device which effectively exercises a cooling function of a body based on vaporization heat of sweat that humans originally have. This point will be first described in detail.
  • a human can be considered as a very inefficient working device which takes in foods to perform a life-sustaining act or work and generates heat in accordance with such an act. Since the efficiency is poor, almost all calories taken in are turned to heat. Further, in order to maintain a normal body temperature, radiation of heat having a quantity corresponding to a quantity of work at a given time is required. Specifically, in case of a standard adult, a quantity of radiation of heat from a body is approximately 100 kilocalories/hour at rest and approximately 260 kilocalories/hour during walking (a speed: 5 km/hour). Further, it is said that a quantity of radiation of heat exceeds 1000 kilocalories/hour during a labor at the maximum level.
  • a human is originally provided with a function of cooling his/her body by perspiration (which will be also referred to as a "physiological cooler” hereinafter) as a function performing this heat radiation, and this physiological cooler has a capability of sufficiently radiating a quantity of heat radiation during a labor at the maximum level. That is, a physiologically required quantity of heat radiation is determined in accordance with a quantity of work, and a quantity of sweat corresponding to this quantity of heat radiation comes out from a human body. Furthermore, when sweat is all vaporized, heat radiation optimum for a situation at a given time of this person is carried out. Of course, a quantity of sweat corresponding to a quantity of heat radiation is not uniquely calculated by a brain. However, when a body temperature acutely increases, a large quantity of sweat keeps coming out from a human body. As a result, when a body temperature is lowered, a quantity of sweat is reduced, and hence the body is not cooled too much.
  • the sweat In light of cooling a body by vaporization of sweat, the sweat is roughly classified into effective perspiration which contributes to cooling and ineffective perspiration which does not contribute to cooling.
  • the sweat can be further finely classified into three types, i.e., rapidly effective perspiration, slowly effective perspiration and ineffective perspiration.
  • the rapidly effective perspiration means sweat which is vaporized simultaneously with generation from a body. This rapidly effective perspiration is immediately evaporated, and hence the body is rapidly cooled.
  • the slowly effective perspiration means sweat which is generated in a state of a liquid from a body. This slowly effective perspiration is not immediately evaporated, and hence an undergarment becomes wet with sweat. The cooling effect cannot be immediately obtained when the body needs this effect.
  • ineffective perspiration means sweat dripping from the body. In this case, there is no cooling function of the body based on vaporization.
  • ineffective perspiration comes out, the body is in a state that the physiological cooler does not effectively function, and a body temperature keeps increasing. Therefore, the body cannot maintain a fixed state.
  • a necessary quantity of sweat corresponding to a change or the like in a work quantity serves as rapidly effective perspiration to cool down the body, and liquid-like sweat does not remain in an undergarment, thereby constantly maintaining the body in a comfortable state.
  • a required quantity of heat radiation cannot be obtained.
  • the body keeps producing wasteful liquid-like sweat (the ineffective perspiration) which is not vaporized, and not only a human feels discomfort but also he/she is physiologically damaged.
  • FIG. 1 is a schematic block diagram of a human body illustrating a principle of a physiological cooler.
  • a human body is provided with an energy thermogenetic portion which generates heat in accordance with working or the like, a sensor portion which detects a body temperature or the like, a calculation control portion (mainly a brain) which calculates/controls a necessary heat radiation quantity, a water storage portion which stores water (sweat) as a coolant, a sweat gland along which water (sweat) as a coolant is carried to a surface of a body in response to an instruction from the calculation control portion, and a vaporization plate (a skin) having a large area which lightly moistens the entire body with sweat from the sweat gland.
  • the human body has a capability of sufficiently radiating a thermogenetic quantity during a labor at the maximum level mentioned above as a maximum sweat supply capability. As described above, it can be said that the human body is provided with an ideal perfect cooling system.
  • a cooling garment as means for producing a flow of air in the vicinity of a surface of a body (PCT/JP01/01360).
  • This cooling garment is provided with a circulation path through which air is circulated between the garment and an undergarment or a body, and air sending means attached to the garment.
  • the body is cooled by using a temperature difference between a body temperature and a temperature of outside air.
  • the air-conditioning garment according to the present invention is obtained by developing this scheme. That is, in the air-conditioning garment according to the present invention, a flow of air is forcibly produced in a space between a clothing material and a body by air sending means, and a humidity gradient on a surface of a skin corresponding to the vaporization plate is increased by circulating air along the surface of the body in a space between the clothing material and the body. As a result, sweat supplied in accordance with a heat radiation quantity required by the body is all vaporized as rapidly effective perspiration.
  • the air-conditioning garment is an auxiliary device which allows the physiological cooler originally included in the human body to effectively function.
  • the physiological cooler perfectly functions, there is no argument about a fact that the physiological cooler is a perfect and ideal cooler for a human body.
  • a problem is how much the auxiliary device which allows the physiological cooler to perfectly function, i.e., the air-conditioning garment can increase performance of the physiological cooler.
  • the physiological cooler does not effectively function.
  • the human body is not substantially provided with a function which is opposite to the physiological cooler, i.e., a function which suppresses heat radiation from the human body, and a blood flow volume of the body surface is physiologically reduced at the utmost. Therefore, in such a case, a person actually adjusts a garment by himself/herself to adjust his/her body temperature. That is, a person dress in several layers of clothing when feeling cold.
  • FIG. 2 is a view illustrating a relationship between a maximum heat radiation enabled quantity and a temperature/humidity of outside air when a temperature of a body surface is maintained at 33 °C by vaporization heat of sweat under a situation where air having a flow quantity of 10 liters/second is caused to flow in the vicinity of the body surface.
  • a vertical axis represents humidity (%) and a horizontal axis represents a temperature (°C).
  • the maximum heat radiation enabled quantity in FIG. 2 is a theoretical value when air has vaporized sweat without waste.
  • an electric fan when used to cause air to flow to a human body, a very small part of the wind which has blown contributes to vaporization of sweat, and the maximum heat radiation enabled quantity becomes very small with respect to an air sending quantity.
  • the electric fan when used, there is also a serious problem in properties of the airstream due to a usage pattern of the electric fan. That is, since the electric fan is usually arranged to face a human body, the airstream necessarily substantially vertically comes into contact with the human body. Therefore, it is very difficult to optimize an air sending quantity required to vaporize sweat. If the air sending quantity is too small, sweat cannot be all vaporized.
  • FIG. 3 is a view schematically showing a distribution of a wind speed with respect to a distance from one flat plate when air is caused to flow between two parallel flat plates.
  • the wind speed becomes zero on a plate surface.
  • one plate is a vaporization plate (a skin) and the other plate is a guide plate used to form a parallel-to-body airstream
  • the wind speed is high between the two plates, a temperature/humidity gradient of the skin surface is greatly increased. Therefore, when a gap between the skin surface and the guide plate is sufficiently small with respect to a length of an airstream path, the parallel-to-body airstream fully contributes to vaporization of sweat.
  • a body temperature is lowered when sweat having a quantity larger than that corresponding to a necessary heat radiation quantity is produced and vaporized, and hence such a thing cannot occur as long as a control function mainly realized by a brain is normally operating.
  • a remarkable point is that a heat radiation quantity is consistently determined by a physiological cooler control function even if air having a flow quantity of 10 liters/second is kept flowing. Therefore, the physiological cooler automatically controls a sweating quantity in such a manner that a sweating quantity is reduced when a necessary heat radiation quantity is decreased and a sweating quantity is increased when a necessary heat radiation quantity is increased.
  • a flow quantity of air concerns a range in which the physiological cooler effectively functions.
  • a necessary heat radiation quantity is 500 kilocalories/hour, as apparent from FIG. 2, when outside air has a temperature of 35 °C and humidity of 30 %, sweat having a quantity corresponding to a heat radiation quantity cannot be all vaporized even if the outside air is caused to flow as a parallel-to-body airstream with a flow quantity of 10 liters/second. In such a case, increasing the flow quantity of the parallel-to-body airstream can suffice.
  • the parallel-to-body airstream has an advantage in that the airstream does not substantially vertically come into contact with the body as different from an electric fan even if its flow quantity is increased and a range in which the physiological cooler can effectively function can be readily expanded.
  • the physiological cooler is ideal body heat radiating means in all aspects, the physiological cooler does not have sweat vaporizing means alone.
  • the air-conditioning garment according to the present invention compensates this missing means.
  • the air-conditioning garment is an auxiliary device which has means for generating a parallel-to-body airstream and expands a range in which the physiological cooler effectively functions.
  • FIG. 4 is a view illustrating the air-conditioning garment which realizes an ideal parallel-to-body airstream.
  • a guide sheet air guiding means
  • a fixed small gap is formed between the guide sheet and the body surface, a flow of air is generated by, e.g., a large fan disposed overhead, and a large quantity of parallel-to-body airstream is caused to flow in a space between the guide sheet and the body surface.
  • the condition 1, i.e., the air-conditioning area ratio will now be concretely described.
  • the air-conditioning garment which wraps a body part except a face, hands and feet with the parallel-to-body airstream.
  • An air-conditioning area ratio of this air-conditioning garment is approximately 85 %.
  • an air-conditioning garment which wraps an upper body and armpits alone from which sweat is apt to come out with a parallel-to-body airstream.
  • An air-conditioning area ratio of this air-conditioning garment can be calculated as follows. A surface area of an entire body of an average adult is approximately 1.8 m 2 . Assuming that a length of the upper body is 15 cm and a chest measurement is 80 cm, a surface area of the upper body is 1200 cm 2 .
  • the air-conditioning area ratio in this case is approximately 7.8 %.
  • the air-conditioning area ratio of the air-conditioning garment according to the present invention it is desirable for the air-conditioning area ratio of the air-conditioning garment according to the present invention to be at least 10 %.
  • the air-conditioning garment is provided with: air guiding means for covering a predetermined part of a body and guiding air along a surface of the body in a space between itself and the body; one or a plurality of air circulating portions which take air flowing in the space between the air guiding means and the body to the outside or take outside air into the space between the air guiding means and the body; one or a plurality of air sending means for forcibly generating a flow of air in the space between the air guiding means and the body; and power supplying means for supplying power to the air sending means.
  • the air sending means circulates air in the space between the air guiding means and the body, sweat which has come out from the body is vaporized, and vaporization heat which is drawn from the periphery by sweat at the time of vaporization is utilized, thereby cooling the body.
  • the air guiding means it is desirable to use means having such air permeability as a ratio of a flow quantity of air leaking from the entire air guiding means to the outside with respect to a flow quantity of air which has been taken into the space between the air guiding means and the body is not more than 60 %.
  • the air sending means in order to obtain a sufficient cooling effect by wearing the air-conditioning garment, the air sending means must generate air which flows with a flow quantity of at least 0.01 liter/second per kg of a weight of a wearer. For example, when an adult having a weight of 60 kg wears the air-conditioning garment, air must be caused to flow with a flow quantity of at least 0.6 liter/second.
  • the air sending means means for generating air which flows with a flow quantity of at least 0.01 liter/second per kg of a weight of a wearer is used as the air sending means. Therefore, when the air sending means circulates air in the space between the air guiding means and the body, vaporization of sweat which has come out from the body is facilitated, thereby expanding a range in which the physiological cooler function originally included in a human body is effectively exercised.
  • the present inventor has studied out various kinds of air-conditioning garments having different shapes, flow quantities of air or the like. As a result, it is possible to realize optimum air-conditioning garments, e.g., an air-conditioning garment emphasizing fashionability, an air-conditioning garment for carrying out an office work without an air conditioner, an air-conditioning garment for preventing labor accidents due to hotness, an air-conditioning garment used to comfortably perform outdoor works and others in accordance with intended uses, thereby solving all problems concerning hotness.
  • an air-conditioning garment emphasizing fashionability
  • an air-conditioning garment for carrying out an office work without an air conditioner an air-conditioning garment for preventing labor accidents due to hotness
  • an air-conditioning garment used to comfortably perform outdoor works and others in accordance with intended uses thereby solving all problems concerning hotness.
  • the air-conditioning garment When the air-conditioning garment according to the present invention is used, the air-conditioning garment is usually directly put on over a body, but the air-conditioning garment may be put on over an undergarment.
  • the "undergarment” means clothing which is put on under the air-conditioning garment.
  • attention must be given to a fact that a range in which the physiological cooler effectively functions is reduced if air permeability of the undergarment is poor, for example.
  • FIGS. 5, 6, 7 and 8 are views illustrating specifications of the 16 types of air-conditioning garments.
  • contents of the 16 types of air-conditioning garments are, an air-conditioning garment for a light duty, an air-conditioning garment for a medium duty, an air-conditioning garment for work in the rain, an air-conditioning garment for a line operation, an air-conditioning garment for office use, an air-conditioning garment for outdoor, an air-conditioning garment for deodorization, an air-conditioning garment for children, an air-conditioning garment for a heavy duty, a jumpsuit type air-conditioning garment, an air-conditioning garment for an intermediate garment, an air-conditioning garment for temperature adjustment, a T-shirt type air-conditioning garment, a high-function type air-conditioning garment, an improved air-conditioning garment for office use, and an air-conditioning belt type air-conditioning garment.
  • FIGS. 5, 6, 7 and 8, 19 items are listed as specifications of the air-conditioning garments. Specifically, there are respective items of "air-conditioning capability”, “flow quantity”, “air sending mode”, “spacer”, “fan attachment surface”, “number of fans”, “fan position”, “fan type”, “total effective fan area”, “fan diameter”, “power supply type”, “power consumption”, “air-conditioning area ratio”, “sleeve”, “air guiding means type”, “air circulating portion”, “opening/closing means”, “lower air leak prevention”, and “fan attachment/detachment mode”.
  • air-conditioning capability there are respective items of "air-conditioning capability", “flow quantity”, “air sending mode”, “spacer”, “fan attachment surface”, “number of fans”, “fan position”, “fan type”, “total effective fan area”, “fan diameter”, “power supply type”, “power consumption”, “air-conditioning area ratio”, “sleeve”, “air guiding means type”, “air circulating portion”, “opening/closing means”, “lower
  • the "reference air” means air having a temperature of 33 °C and humidity of 50 %.
  • a section of "flow quantity” shows a flow quantity (liter/second) of air circulated between the air guiding means and the body by the air sending means.
  • a section of "air sending mode” shows a distinction of a direction in which the air sending means sends air, i.e., one of an "intake” mode of taking outside air into the air guiding means by the air sending means and a “discharge” mode of discharging air in the air guiding means to the outside by the air sending means.
  • a section of "spacer” shows whether a spacer is used between the air guiding means and the body and a type of the spacer when the spacer is used.
  • a section of "fan attachment surface” shows that the air sending means is attached on an inner surface side or an outer surface side of the air guiding means.
  • a section of "number of fans” shows a quantity of air sending means attached to the air-conditioning garment.
  • a section of "fan position” shows an air sending means attachment position.
  • a section of "fan type” shows a type of the air sending means, e.g., a side stream fan or a propeller fan.
  • a section of "total effective fan area” shows a value of an area (cm 2 ) obtained by summing up areas of opening portions for air intake or discharge in all the air sending means.
  • a section of "fan diameter” shows a diameter (mm) of an impeller or a propeller of the air sending means.
  • a section of "power supply type” shows a type of power supplying means.
  • a section of "power consumption” shows a value (W) obtained by summing up power consumptions of all the air sending means.
  • a section of "air-conditioning area ratio” shows a ratio (%) of a surface area of a body part which can be wrapped with air generated by the air sending means with respect to a surface area of the entire body.
  • a section of "sleeve” shows that the air-conditioning garment is a short-sleeved garment, a long-sleeved garment, a sleeveless garment or the like.
  • a section of "air guiding means type” shows a material of the air guiding means.
  • a section of "air circulating portion” shows contents of the air circulating portion.
  • a section of "opening/closing means” shows contents of means for opening/closing a front side of the air-conditioning garment.
  • a section of "lower air leak prevention” shows contents of means for preventing air from leaking from a lower portion of the air-conditioning garment.
  • a section of "fan attachment/detachment mode” shows contents of a mode for attaching/detaching the air sending means with respect to the air guiding means.
  • FIG. 9A is a schematic front view of an air-conditioning garment according to the first embodiment of the present invention
  • FIG. 9B is a schematic rear view of the air-conditioning garment.
  • an air-conditioning garment 1 As shown in FIG. 9, an air-conditioning garment 1 according to the first embodiment is provided with a clothing material portion 20, opening/closing means 31, lower air leak preventing means 32, three air circulating portions 40, 40 and 40, two air sending means 50 and 50, power supplying means 61, a power supply cable 62, a power supply pocket 63, a power supply switch (not shown), and flow quantity adjusting means (not shown).
  • This air-conditioning garment 1 is used as the most practical garment for a light duty.
  • a main specification of this air-conditioning garment 1 is organized in the table of FIG. 5.
  • the clothing material portion 20 covers a predetermined part of a body.
  • this clothing material portion 20 is used to manufacture a short-sleeved garment for a light duty which covers an upper body.
  • the clothing material portion 20 also serves to guide air generated by the air sending means 50 along a surface of a body or an undergarment in a space between the clothing material portion 20 and the body or the undergarment. That is, the clothing material portion 20 functions as a garment which covers the body and also as the air guiding means.
  • the clothing material portion 20 In order to use the clothing material portion 20 as the air guiding means, it is desirable to use, as a material of the clothing material portion 20, one which allows a parallel-to-body airstream to smoothly flow and can prevent air from leaking to the outside as much as possible.
  • One of optimum materials used for this clothing material portion 20 is a fabric made of 100 % of polyester.
  • the polyester cloth has properties that air permeability is very small.
  • the polyester cloth is generally used as a windbreaker or a winter clothing material because of its properties. Further, the polyester cloth also has properties of a modest price, luster, stain resistance, wrinkle resistance and others.
  • the polyester cloth is generally rarely used as a summer clothing material because it has poor air permeability and hardly absorbs sweat.
  • the small air permeability is a necessary condition for the clothing material portion 20 used in the air-conditioning garment 1 to prevent air from leaking. Furthermore, since sweat is immediately vaporized from a skin (rapidly effective perspiration) when the air-conditioning garment 1 is put on, a material which absorbs sweat does not have to be necessarily used as the clothing material portion 20. Therefore, the polyester cloth meets all conditions required for the clothing material portion 20 for the air-conditioning garment 1. In the first embodiment, the polyester cloth is used as a material of the clothing material portion 20 (the air guiding means).
  • any material can be used as long as air does not substantially permeate it.
  • a fabric made of plastic fiber like a nylon cloth or a high-density cloth as well as a polyester cloth.
  • natural fiber such as cotton or mixed fiber of these materials can be used depending on intended uses.
  • a mixed material containing 80 % or more of polyester may be used as a material of the clothing material portion 20.
  • the mixed material containing 80 % or more of polyester is used because the advantage of the above-described characteristics of polyester cannot be taken if a percentage of polyester contained in the material is smaller than 80 %.
  • the opening/closing means 31 is provided in a front portion of the clothing material portion 20.
  • This opening/clothing means 31 functions to open/close the front portion of the air-conditioning garment 1 when it is put on.
  • a fastener is used as the opening/closing means 31. The fastener can be readily opened/closed, and air hardly leaks from the fastener portion to the outside when the fastener is closed.
  • the lower air leak preventing means 32 is provided at a hem portion of the clothing material portion 20.
  • This lower air leak preventing means 32 prevents air from leaking from the hem portion to the outside by bringing a lower portion (the hem portion) of the clothing material portion 20 into close contact with the body, the undergarment or a garment.
  • an elastic material e.g., a rubber belt used in a winter zip-up jacket or the like is employed as the lower air leak preventing means 32. This rubber belt is stitched into the hem portion of the clothing material portion 20. Therefore, the hem portion is brought into close contact with a garment such as pants or the like so that air does not leak to the outside from the hem portion.
  • a string, a belt or the like as well as the rubber belt can be used as the lower air leak preventing means 32.
  • this string is attached to the hem portion of the clothing material portion 20 in such a manner that the string can be moved along the hem portion. Further, when the hem portion of the clothing material portion 20 is tightened by using this string, the hem portion is appressed against pants or the like.
  • the air circulating portion 40 is utilized as an air outflow portion from which air flowing in the space between the clothing material portion 20 and the body or the undergarment is taken to the outside or an air inflow portion from which outside air is taken into the space between the clothing material portion 20 and the body or the undergarment. Whether the air circulating portion 40 is utilized as the air outflow portion or the air inflow portion is determined by an air sending mode of the air sending means 50. That is, when the air sending means 50 operates to take outside air into the clothing material portion 20, the air circulating portion 40 is utilized as the air outflow portion. On the other hand, when the air sending means 50 operates to discharge air in the clothing material portion 20 to the outside, the air circulating portion 40 is utilized as the air inflow portion. In the first embodiment, the air circulating portion 40 is utilized as the air outflow portion.
  • the three air circulating portions 40, 40 and 40 are provided to the air-conditioning garment 1.
  • opening portions formed at predetermined end portions of the clothing material portion 20, i.e., an opening portion at a part around a neck and opening portions at left and right cuff parts are the air circulating portions 40, 40 and 40.
  • the air-conditioning garment 1 is put on and the fastener is closed, except the air sending means 50 and the air circulating portions 40, 40 and 40, there is no part from which air in the clothing material portion 20 flows to the outside.
  • the opening portion at the part around the neck and the opening portions at the left and right cuff parts will be also referred to "upper opening portions" hereinafter.
  • Hole portions 21 and 21 are formed on both left and right sides close to ribs at a lower part of the clothing material portion 20 on the back side (see FIG. 12A).
  • the air sending means 50 is attached at positions of the clothing material portion 20 corresponding to the respective hole portions 21 from the inner surface side of the clothing material portion 20.
  • the air sending means 50 forcibly generates a flow of air in a space between the clothing material portion 20 and the body or the undergarment.
  • the two air sending means 50 and 50 rotate in a direction of taking outside air into the clothing material portion 20. That is, as an air sending mode of the air sending means 50 and 50, an intake mode is adopted.
  • the air sending means 50 and 50 When electric power is supplied to the air sending means 50 and 50, the air sending means 50 and 50 take outside air into the clothing material portion 20, and the intake air is circulated as a parallel-to-body airstream in the space between the clothing material portion 20 and the body or the undergarment due to existence of the clothing material portion 20. Furthermore, when the parallel-to-body airstream reaches the air circulating portions 40, 40 and 40, it is discharged to the outside.
  • attachment positions of the air sending means 50 and 50 i.e., positions which are close to the ribs and correspond to the lower part of the clothing material portion 20 on the back side will be referred to as "standard positions".
  • the standard positions are the most preferable positions as attachment positions of the air sending means 50 and 50.
  • the air sending means 50 and 50 do not become obstacles even if a wearer leans back in a chair. Moreover, arms do not come into contact with the air sending means 50 and 50 during a work. Additionally, as seen from a front side, the air sending means 50 and 50 are hidden, and the appearance of the air-conditioning garment 1 is excellent.
  • the parallel-to-body airstream can be circulated in the substantially entire body part which is covered with the clothing material portion 20 when the air circulating portions 40, 40 and 40 are formed in the upper part of the clothing material portion 20. That is, the standard position is a position which can relatively increase a ratio of a surface area of the body part wrapped with the parallel-to-body airstream with respect to a surface area of the entire body (an air-conditioning area ratio). It is to be noted that the air-conditioning area ratio is approximately 35 % in the air-conditioning garment 1 according to the first embodiment.
  • FIG. 10A is a schematic cross-sectional view of the air sending means 50 used in the air-conditioning garment 1 according to the first embodiment
  • FIG. 10B is a schematic plan view of an impeller used in the air sending means 50
  • FIG. 11A is a schematic side view of an internal fan guard used in the air sending means 50
  • FIG. 11B is a schematic plan view of the internal fan guard used in the air sending means 50
  • FIG. 11C is a schematic plan view of an external fan guard used in the air sending means 50.
  • FIG. 12A is a view illustrating a hole portion 21 formed in the clothing material portion 20
  • FIG. 12B is a view illustrating a state where the air sending means 50 is attached to the clothing material portion 20.
  • the air sending means 50 is provided with a motor 51, an impeller 52, an internal fan guard 53, an external fan guard 54 and a Velcro tape 55.
  • the internal fan guard 53 and the external fan guard 54 accommodate the motor 51 and the impeller 52 therein.
  • the impeller 52 has a plurality of R-shaped blades 52a, a circular plate 52b and a motor shaft press-fit hole 52c. The plurality of blades 52a are attached around the circular plate 52b.
  • the internal fan guard 53 has a circular bottom plate 53a, many fan guard poles 53b, and an annular flange 53c.
  • the bottom plate 53a serves as a motor fixing plate.
  • the fan guard poles 53b are substantially vertically disposed on the bottom plate 53a, and attached at predetermined intervals along a circumferential portion of the bottom plate 53a. These fan guard poles 53b function to prevent fingers from entering the internal fan guard 53.
  • the flange 53c is attached at an end portion of each fan guard pole 53b placed on the opposite side of the bottom plate 53a. Furthermore, as shown in FIG.
  • the external fan guard 54 has a plurality of guard rings 54a having different radii and a flange 54b which fixes the plurality of guard rings 54a.
  • the Velcro tape 55 is attached to the outermost annular portion of the flange 54b as shown in FIG. 10A.
  • the motor 51 is first attached at the center of the bottom plate 53a of the internal fan guard 53. Then, the impeller 52 is accommodated in the internal fan guard 53 in such a manner that a rotary shaft of the motor 51 is inserted into the motor shaft press-fit hole 52c of the impeller 52. Thereafter, the external fan guard 54 is fixed on the internal fan guard 53, thereby bringing the air sending means 50 to completion.
  • FIG. 10B An arrow shown in FIG. 10B indicates a rotating direction of the impeller 52. That is, the impeller 52 is a backward inclined impeller in which the blades 52a are backwardly bent with respect to the rotating direction. Therefore, when this impeller 52 rotates in a direction indicated by this arrow, air can be taken in from an axial direction of the impeller 52, and the air can be radially sent toward an outer peripheral direction of the impeller 52.
  • the air sending means which radially sends the air taken in from the axial direction of the impeller toward the outer peripheral direction of the impeller will be also referred to as a "a side stream fan" hereinafter.
  • a diameter (a fan diameter) of the impeller 52 is approximately 5 cm. Furthermore, a value of an area obtained by summing up areas of opening portions for air intake or discharge in the two air sending means 50 and 50 (a total effective fan area) is approximately 30 cm 2 .
  • the air sending means 50 which is actually used in the first embodiment, there is employed means by which a flow quantity of air which can be generated between the clothing material portion 20 and the body or the undergarment is 6 liters/second.
  • a space in which the parallel-to-body airstream flows can be automatically formed between the clothing material portion 20 and the body by a pressure of this air.
  • the air sending means 50 it is generally necessary for the air sending means 50 to send air having a flow quantity of at least 2 liters/second.
  • a power consumption of the two air sending means 50 and 50 is approximately 1 W.
  • the air sending means 50 is detachably attached to the clothing material portion 20.
  • the Velcro tape 22 is attached at the circumferential part of the hole portion 21 on the inner surface of the clothing material portion 20.
  • a Velcro tape for a surface B is a Velcro tape 55 attached to the flange 54b of the air sending means 50.
  • the air sending means 50 On the inner surface side of the clothing material portion 20, when the air sending means 50 is arranged in such a manner that the external fan guard 54 of the air sending means 50 faces the hole portion 21 of the clothing material portion 20 and the two Velcro tapes 22 and 55 are attached, the air sending means 50 is attached at a position corresponding to the hole portion 21 of the clothing material portion 20 as shown in FIG. 12B. Since anyone can readily attach/detach the air sending means 50 in this manner, not only the air-conditioning garment 1 can be easily washed but also the air sending means 50 alone can be readily replaced when the air sending means 50 fails to operate properly.
  • the method of attaching/detaching the air sending means 50 to/from the clothing material portion 20 is not restricted to the method using the Velcro tapes 22 and 55, and any method can be used as long as it is a method which can facilitate attachment/detachment of the air sending means 50 and has less air leak at the attachment portion of the air sending means 50.
  • a sheet-shaped magnet may be used to attach/detach the air sending means 50.
  • the power supply pocket 63 accommodates power supplying means 61 and is attached on the inner surface side of the clothing material portion 20 and at a lower left part on the front side of the clothing material portion 20.
  • the power supplying means 61 supplies electric power to the air sending means 50 and 50.
  • a secondary battery is used as the power supplying means 61 in the light of economical efficiency.
  • the power supplying means 61 and the two air sending means 50 and 50 are connected with each other through the power supply cable 62.
  • a power supply switch (not shown) is provided between the power supplying means 61 and the two air sending means 50 and 50. This power supply switch turns on/off electric power which is supplied to the two air sending means 50 and 50 from the power supplying means 61.
  • Flow quantity adjusting means (not shown) for adjusting a flow quantity of air generated by the air sending means 50 and 50 is provided to the air-conditioning means 1.
  • a volume is used as the flow quantity adjusting means. Since an excessive flow quantity of air can be prevented from flowing in the space between the clothing material portion 20 and the body by providing the volume, the life of the power supplying means 61 can be improved.
  • the two air sending means 50 and 50 respectively take outside air into the clothing material portion 20.
  • a space in which a parallel-to-body airstream flows is automatically formed between the clothing material portion 20 and the body or the undergarment by a pressure of the taken air.
  • a flow of the parallel-to-body airstream with which the upper body is wrapped is generated in the space between the clothing material portion 20 and the body or the undergarment.
  • the parallel-to-body airstream reaches the air circulating portions 40, 40 and 40, it is discharged to the outside from these portions.
  • arrows shown in FIG. 9 indicate a direction along which air is taken in from the outside and a direction along which air is discharged to the outside.
  • the air-conditioning garment 1 can circulate the parallel-to-body airstream in the space between the clothing material portion 20 and the body or the undergarment in this manner, a range in which the physiological cooler effectively functions can be expanded.
  • the maximum capability of the physiological cooler is determined by a temperature/humidity of outside air. For example, in an environment indicated by the point A in FIG. 2 (a temperature of 35 °C and humidity of 30 %), when a flow quantity of air is 10 liters/second, heat radiation which is up to approximately 450 kilocalories/hour can be performed. In the air-conditioning garment 1, since a flow quantity of air is 6 liters/second, heat radiation which is up to 270 kilocalories/hour can be carried out.
  • a pressure difference between a pressure of outside air and a pressure in the air guiding means is increased as getting closer to the air sending means 50.
  • an air sending mode of the air sending means 50 is an air intake mode and a flow quantity of air generated by the air sending means 50 is large
  • the air guiding means in the vicinity of the air sending means 50 is inflated by the pressure difference, and a so-called "air reservoir” is formed in the vicinity of the air sending means 50.
  • air-conditioning efficiency is lowered, and hence a material which has less air leak is used as the air guiding means.
  • the air guiding means it is desirable for the air guiding means to have such air permeability as a ratio of a flow quantity of air leaking to the outside from the entire air guiding means with respect to a flow quantity of air taken into the space between the air guiding means and the body or the undergarment by the air sending means 50 and 50 is 60 % at the maximum.
  • a saturated water vapor quantity of air having a temperature of 33 °C is approximately 32.5 g/m 3 . Therefore, when humidity of this air is 50 %, approximately 16.25 g/m 3 of water is contained in this air, and this air can afford to vaporize approximately 16.25 g/m 3 of water. Since vaporization heat of water is approximately 580 kilocalories/g, a vaporization enabling calorie of 1 m 3 of the reference air is 16.25 (g/m 3 ) x 580 (kilocalories/g), i.e., approximately 9.43 (kilocalories/m 3 ).
  • this value is obtained without considering an effect by dry heat.
  • the air-conditioning capability of the air-conditioning garment 1 according to the first embodiment is 236.3 W, it can be considered that the air-conditioning capability is generally approximately 200 W when considering a vaporization contributing ratio of air (which is a ratio of air which contributes to vaporization of sweat with respect to circulated air when sweat is sufficiently supplied. This is improved as a flow of air gets closer to the body).
  • the air-conditioning garment according to the first embodiment since a flow quantity of air generated by the air sending means is 6 liters/second, the air-conditioning garment according to the first embodiment is preferable for a use in a case where a wearer performs a light duty.
  • the flow quantity adjusting means since a wearer can use the flow quantity adjusting means to adjust a flow quantity of air generated by the air sending means, noise caused due to the fan can be reduced or a power consumption can be decreased by reducing a flow quantity of air when an ambient temperature is not very high.
  • the air-conditioning garment according to the first embodiment can be used for preventing outside air from entering the clothing material portion like a windbreaker.
  • a temperature or a wind of a day greatly varies, using the air-conditioning garment for such a purpose is effective.
  • the air-conditioning garment is used as a windbreaker without sending air from the air sending means.
  • the air-conditioning garment is used for its original purpose.
  • a wearer can keep feeling comfortable without changing his/her garment in accordance with a change in a temperature or the like.
  • FIG. 13A is a schematic front view of an air-conditioning garment according to the second embodiment of the present invention
  • FIG. 13B is a schematic rear view of the air-conditioning garment
  • FIG. 14A is a schematic plan view of an integrated belt used in the air-conditioning garment
  • FIG. 14B is a view illustrating a state where the integrated belt is attached to a clothing material portion.
  • FIG. 15A is a schematic plan view of a local spacer used in the air-conditioning garment
  • FIG. 15B is a schematic side view of the local spacer
  • FIG. 15C is a view illustrating a state where the local spacer is attached to the clothing material portion.
  • an air-conditioning garment 2 is provided with a clothing material portion 20, opening/closing means 31, lower air leak preventing means 32, three air circulating portions 40, 40 and 40, two air sending means 50 and 50, power supplying means 61, a power supply cable 62, a power supply pocket 63, an integrated belt 64, a power supply switch (not shown), and local spacers 70 and 70.
  • This air-conditioning garment 2 is mainly used as a workwear utilized for medium duty (a garment for medium duty).
  • a main specification of this air-conditioning garment 2 is organized in the table of FIG. 5.
  • each of the air sending means 50 and 50 means capable of causing a parallel-to-body airstream to flow with a flow quantity of 9 liters/second is used as each of the air sending means 50 and 50.
  • a power consumption of the two air sending means 50 and 50 is approximately 1.5 W. Therefore, a cooling effect higher than that of the air-conditioning garment 1 according to the first embodiment can be obtained by wearing the air-conditioning garment 2.
  • means having a fan diameter of 60 mm is used as each of the air sending means 50 and 50.
  • a total effective fan area of the two air sending means 50 and 50 is 45 cm 2 .
  • the air-conditioning garment 2 since the air-conditioning garment 2 has long sleeves, its air-conditioning area ratio is slightly larger than that in the first embodiment. Specifically, the air-conditioning area ratio of the air-conditioning garment 2 is approximately 40 %. In this air-conditioning garment 2, arm parts can be also cooled.
  • the integrated belt 64 is a band-like member used to attach the two air sending means 50 and 50, the power supplying means 61, the power supply pocket 63, the power supply switch and others, and has a band-like base sheet 64a, two hole portions 64b and 64b formed in the base sheet 64a and a plurality of Velcro tapes 64c as shown in FIG. 14A.
  • As the base sheet 64a a vinyl sheet or the like is used.
  • the air sending means 50 is inserted into each hole portion 64b to be attached.
  • a distance between the two hole portions 64b and 64b is the same as a distance between the two hole portions 21 and 21 provided in the clothing material portion 20.
  • the power supply pocket 63 is attached to the base sheet 64a.
  • the power supplying means 61 is accommodated in this power supply pocket 63. Furthermore, the power supplying means 61 and the two air sending means 50 and 50 are connected with each other through the power supply cable 62.
  • the power supply cable 62 is fixed on the base sheet 64a.
  • the Velcro tapes 64c are attached at, e.g., predetermined positions of peripheral end portions of the base sheet 64a.
  • a Velcro tape 23 for a surface B is attached at a predetermined position on an inner surface of the clothing material portion 20 as shown in FIG. 14B.
  • the integrated belt 64 is detachably attached at a predetermined position on the inner surface side of the clothing material portion 20. Specifically, in case of attaching the integrated belt 64 to the clothing material portion 20, the integrated belt 64 is first arranged on the inner surface side of the clothing material portion 20 in such a manner that an external fan guard 54 of the air sending means 50 faces the hole portion 21 of the clothing material portion 20, and a Velcro tape 55 of the air sending means 50 and a Velcro tape 22 disposed around the hole portion 21 of the clothing material portion 20 are attached. As a result, the two air sending means 50 and 50 are respectively disposed at positions corresponding to the hole portions 21 and 21 of the clothing material portion 20.
  • each Velcro tape 64c of the integrated belt 64 is attached to the Velcro tape 23 disposed at a corresponding predetermined position of the clothing material portion 20, thereby fixing the integrated belt 64.
  • detaching the integrated belt 64 from the clothing material portion 20 can suffice. Therefore, when washing the air-conditioning garment 2, anyone can easily attach/detach the integrated belt 64.
  • the base sheet 64a is hardly stained. Even if the base sheet 64a is stained, the stain can be readily rubbed away.
  • the local spacer 70 locally assures a space in which air is circulated between the clothing material portion 20 and a body.
  • such local spacers 70 are provided at parts corresponding to both shoulders of the clothing material portion 20 on the inner surface side thereof.
  • the local spacers 70 are used to assuredly form the space for circulation of the parallel-to-body airstream at the parts corresponding to the shoulders of the clothing material portion 20.
  • the local spacer 70 has a circular member 71 and a convex portion 72 formed at a central part of the circular member 71.
  • a material of this local spacer 70 a felt is used, for example.
  • the local spacer 70 is arranged on the inner surface side of the clothing material portion 20 in such a manner that the circular member 71 of the local spacer 70 faces the part corresponding to the shoulder of the clothing material portion 20. Then, an end portion of the circular member 71 of the local spacer 70 is sewn on the clothing material portion 20, thereby attaching the local spacer 70 to the clothing material portion 20.
  • the air-conditioning garment according to the second embodiment since a flow quantity of air generated by the air sending means is 9 liters/second, the air-conditioning garment according to the second embodiment is preferable for a use in a case where a wearer performs a medium duty.
  • the local spacer is not restricted to one having the above-described configuration, and any local spacer may be used as long as it has a configuration which can assuredly form a space for circulation of the parallel-to-body airstream between the clothing material portion and the body or an undergarment. Moreover, a position at which the local spacer is attached is not restricted to the shoulder, and the local spacer can be attached at an appropriate position as required.
  • FIG. 16A is a schematic front view of an air-conditioning garment according to the third embodiment of the present invention
  • FIG. 16B is a schematic rear view of the air-conditioning garment.
  • an air-conditioning garment 3 is provided with a clothing material portion 20a, opening/closing means 31, lower air leak preventing means 32, three air circulating portions 40, 40 and 40, two air sending means 50 and 50, power supplying means 61, a power supply cable 62, a power supply pocket 63, a power supply switch (not shown), and local spacers 70 and 70.
  • the clothing material portion 20a functions as air guiding means.
  • This air-conditioning garment 3 is mainly used as a workwear utilized for outdoor work on a rainy day (a workwear for rainy weather).
  • a main specification of this air-conditioning garment 3 is organized in the table of FIG. 5.
  • a power consumption of the two air sending means 50 and 50 is approximately 3 W.
  • the air-conditioning capability is increased to 500 W because humidity is high on a rainy day, and quality of air which is taken into the air-conditioning garment 3 is poor. That is, as described above, a notational value of the air-conditioning capability in FIG. 5 is a value at a temperature of 33 °C and humidity of 50 %.
  • the clothing material portion 20a is formed into a shape which covers an upper body and a head region excluding a face. Specifically, each arm part of the clothing material portion 20a is formed into a long-sleeved shape, and a hood 25 is provided to the clothing material portion 20a. Since the hood 25 is provided, the head region can be prevented from getting wet with rain during work, and a range in which the physiological cooler effectively functions can be expanded to the head region. In this case, an opening portion at the hood 25 part (a part around a neck) and opening portions at left and right cuff parts become the air circulating portions 40, 40 and 40. Moreover, since the hood 25 is provided to the clothing material portion 20a, an air-conditioning area ratio of the air-conditioning garment 3 is approximately 60 % which is larger than that in the first embodiment.
  • the clothing material portion 20a As a material of the clothing material portion 20a, a material which does not absorb rain water, e.g., a plastic sheet such as a vinyl sheet is used. Besides the plastic sheet, a rubber sheet, a waterproof cloth or the like can be used. In this manner, the clothing material portion 20a is hardly stained.
  • the air sending means 50 and 50 are subjected to water-resistant processing.
  • the air sending means 50 and 50 are fixed on the clothing material portion 20a so that the air sending means 50 and 50 cannot be removed from the clothing material portion 20a.
  • the air-conditioning garment according to the third embodiment since a flow quantity of air generated by the air sending means is 14 liters/second, the air-conditioning garment according to the third embodiment is preferable for a use in a case where a wearer performs outdoor work on a rainy day. Actually, various countermeasures against rain are taken in the air-conditioning garment according to the third embodiment. Therefore, when this air-conditioning garment is used in the rain, the body can be prevented from being sticky, and hence a wearer can comfortably perform work. Further, the air-conditioning garment itself is hardly stained, and the stain can be readily rubbed away even if the air-conditioning garment is stained.
  • FIG. 17A is a schematic front view of an air-conditioning garment according to the fourth embodiment of the present invention
  • FIG. 17B is a schematic rear view of the air-conditioning garment. It is to be noted that, in the fourth embodiment, like reference numerals denote parts having the same functions as those in the second embodiment, thereby eliminating their detailed explanation.
  • an air-conditioning garment 4 is provided with a clothing material portion 20, opening/closing means 31, lower air leak preventing means 32, three air circulating portions 40, 40 and 40, two air sending means 50 and 50, a power supply cable 62, an integrated belt 64, a DC adapter (DC converting means) 65, a power supply switch (not shown) and local spacers 70 and 70.
  • This air-conditioning garment 4 is mainly used as a workwear utilized for a work in a manufacturing line (a garment for a line operation). Here, in the manufacturing line, a worker performs a manufacturing operation in a sitting posture. It is to be noted that a main specification of this air-conditioning garment 4 is organized in the table of FIG. 5.
  • a main difference of the air-conditioning garment 4 according to the fourth embodiment from the air-conditioning garment 2 according to the second embodiment lies in that electric power is supplied to the air sending means 50 and 50 from a commercial power source. That is, a commercial power source is used as the power supplying means. Therefore, the air sending means 50 and 50 alone are disposed to the integrated belt 64, and a secondary battery is not attached. Furthermore, means which can cause a parallel-to-body airstream to flow with a flow quantity of 9 liters/second is used as each of the air sending means 50 and 50. Any other points are the same as those in the second embodiment.
  • each air sending means 50 since it is not necessary to be very sensitive about a power consumption of the air sending means 50, means having a small fan diameter is used as each air sending means 50, and each air sending means 50 is rotated at a high speed.
  • the air sending means 50 having a small fan diameter is used in order to prevent the air sending means 50 from coming into contact with a body even if a wearer leans back in a chair.
  • means having a fan diameter of 40 mm is used as each of the air sending means 50 and 50.
  • a total effective fan area of the two air sending means 50 and 50 is 20 cm 2 .
  • a power consumption of the two air sending means 50 and 50 is approximately 20 W.
  • the air-conditioning garment according to the fourth embodiment since a flow quantity of air generated by the air sending means is 9 liters/second and electric power is supplied to the air sending means from the commercial power source by using the DC adapter, the air-conditioning garment according to the fourth embodiment is preferable for a use in a case where a wearer performs medium duty in a sitting posture.
  • FIG. 18A is a schematic front view of an air-conditioning garment according to the fifth embodiment of the present invention
  • FIG. 18B is a schematic rear view of the air-conditioning garment.
  • an air-conditioning garment 5 is provided with a clothing material portion 200, opening/closing means 31a, four air circulating portions 40, 40, 40 and 40a, two air sending means 50 and 50, power supplying means 61, a power supply cable 62, a power supply pocket 63, a power supply switch (not shown), and a pressure-proof spacer 80.
  • This air-conditioning garment 5 is mainly use as a uniform for office work (a garment for office use).
  • a main specification of this air-conditioning garment 5 is organized in the table of FIG. 6.
  • each of the air sending means 50 and 50 means which can cause a parallel-to-body airstream to flow with a flow quantity of 6 liters/second is used.
  • the air-conditioning area ratio of this air-conditioning garment 5 is approximately 40 %. Any other points are the same as those in the first embodiment.
  • the clothing material portion 200 is divided into an upper portion excluding arm portions and a portion other than the upper portion (arm portions and a lower portion), and different material are used for these respective portions. That is, a cloth having high air permeability is used for the upper portion of the clothing material portion 200, and a cloth having low air permeability such as a polyester cloth is used for the arm portions and the lower portion of the clothing material portion 200. In the fifth embodiment, only the portion (the arm portions and the lower portion) formed out of the cloth having low air permeability in the clothing material portion 200 serves as air guiding means.
  • upper opening portions function as the air circulating portions 40, 40 and 40
  • the portion (the upper portion) formed out of the cloth having high air permeability in the clothing material portion 200 also serves as an air circulating portion 40a.
  • This air circulating portion 40a functions to assist circulation of air by the upper opening portions. For example, when a necktie or the like is put on, air cannot be circulated from the opening portion at a part around the neck in the upper opening portions. In such a case, the air circulating portion 40a substitutes for the opening portion at a part around the neck.
  • a method which solves this problem there can be considered a method of first manufacturing the entire clothing material portion 200 by using a cloth having high air permeability and then laminating a sheet having low air permeability on the arm portions and the lower portion of the clothing material portion 200 from the inner side thereof.
  • a part on which the sheet-shaped member having low air permeability is laminated from the inner side in the clothing material portion 200 serves as the air guiding means, and a part on which this sheet-shaped member is not laminated in the clothing material portion 200 functions as the air circulating portion 40a.
  • the lower portion of the clothing material portion 200 is formed rather long so that buttocks and the lower abdominal region of a wearer can be covered like a general dress shirt.
  • a hem portion of the clothing material portion 200 is not subjected to any processing, e.g., providing a rubber belt or the like.
  • air-conditioning garment 5 in case of putting on the air-conditioning garment 5, when a portion lower than a part indicated by X in FIG. 18 in the clothing material portion 200 is tucked into pants or the like, air can be prevented from leaking to the outside from the hem portion of the clothing material portion 200.
  • buttons used for a dress shirt or the like are adopted as opening/closing means 31a. Meanwhile, when the buttons are fastened, an end portion of the clothing material portion 200 on a side where the buttons are attached is positioned on the inner side, and an end portion of the clothing material portion 200 on a side where button holes are formed is positioned on the outer side, whereby an overlapping portion of the clothing material portion 200 is formed.
  • a width of the overlapping portion is substantially the same as a width of an overlapping portion in a general dress shirt, a large part of a parallel-to-body airstream sent from the air sending means 50 leaks from the overlapping portion to the outside, thereby considerably reducing an air-conditioning capability of the air-conditioning garment for office use.
  • an extending portion 201 is provided at the end portion of the clothing material portion 200 on the side where the buttons are attached. That is, extending the end portion of the clothing material portion 200 on the side where the buttons are attached increases an area of the overlapping portion of the clothing material portion 200 which is produced when the buttons are fastened.
  • the problem of leak of air to the outside from the overlapping portion can be sufficiently improved without deteriorating the appearance or the like of the air-conditioning garment 5. It is to be noted that air leaks from the overlapping portion in a measure even in this case, but the air-conditioning garment 5 has the practically sufficient air-conditioning capability when the air-conditioning garment 5 is used as a garment for office use.
  • the extending portion 201 does not have to be necessarily provided at the end portion of the clothing material portion 200 on the side where the buttons are attached depending on an intended purpose of the air-conditioning garment 5.
  • the overlapping portion of the clothing material portion 200 which is produced when the buttons are fastened can be utilized as one of the air circulating portions.
  • a pressure-proof spacer 80 is attached at a part corresponding to the back region on the inner surface side of the clothing material portion 200.
  • the pressure-proof spacer 80 assures a space in which air is circulated between the clothing material portion 200 and a body or an undergarment, and has strength which can resist a large pressure.
  • the pressure-proof spacer 80 is used to prevent a parallel-to-body airstream from not flowing in the vicinity of the back region when a wearer leans back in a chair and the clothing material portion 200 and the body or the undergarment thereby become appressed against each other.
  • the requirements for the pressure-proof spacer 80 are that it can resist a large pressure, and that a resistance which air receives from it is low and air can readily circulate.
  • FIG. 19A is a schematic plan view of a part of the pressure-proof spacer 80
  • FIG. 19B is a schematic side view of a part of the pressure-proof spacer 80.
  • the pressure-proof spacer 80 is a so-called mesh spacer, and has a net-like sheet (a net-like member) 81 and a plurality of convex portions 82 as shown in FIG. 19.
  • each convex portion 82 is formed into a substantially semispherical shape.
  • the net-like sheet formed of soft plastic is put between a convex metal mold and a concave metal mold and subjected to thermoforming.
  • the plurality of convex portions 82 protruding in a thickness direction of the net-like sheet are formed on the net-like sheet. In this manner, the pressure-proof spacer 80 can be readily formed.
  • the pressure-proof spacer 80 it is desirable for the pressure-proof spacer 80 to have a thickness (a height of the convex portion 82) W which is not smaller than 2 mm and not larger than 30 mm.
  • a thickness W of the pressure-proof spacer 80 is smaller than 2 mm, a pressure of air must be largely increased in order to circulate air having a fixed flow quantity, which is not practical.
  • the pressure-proof spacer 80 provided around the air sending means 50 and 50 it is desirable for the pressure-proof spacer 80 provided around the air sending means 50 and 50 to have the thickness W which is not smaller than 5 mm.
  • the thickness W of the pressure-proof spacer 80 is larger than 30 mm, the appearance or comfortableness is deteriorated. In reality, the most preferable range for the thickness W of the pressure-proof spacer 80 is not smaller than 3 mm and not larger than 10 mm.
  • the pressure-proof spacer 80 is stitched on a part of the clothing material portion 200 corresponding to the back region. Specifically, the pressure-proof spacer 80 is arranged on the part of the clothing material portion 200 corresponding to the back region in such a manner that the net-like sheet 81 of the pressure-proof spacer 80 faces the clothing material portion 200 from the inner surface side of the clothing material portion 200. Further, the pressure-proof spacer 80 is, for example, sewed on the clothing material portion 200 by using a sewing machine or the like.
  • the air-conditioning garment according to the fifth embodiment since a flow quantity of air generated by the air sending means is 6 liters/second, the air-conditioning garment according to the fifth embodiment is preferable for a use in a case where a wearer performs work in an office.
  • FIG. 20A is a schematic front view of an air-conditioning garment according to the sixth embodiment of the present invention
  • FIG. 20B is a schematic rear view of the air-conditioning garment
  • FIG. 20C is a schematic front view of an undergarment which is put on under the air-conditioning garment.
  • an air-conditioning garment 6 is provided with a clothing material portion 200, opening/closing means 31a, four air circulating portions 40, 40, 40 and 40a, two air sending means 50 and 50, power supplying means 61, a power supply cable 62, a power supply pocket 63, a solar battery 66, a power supply switch (not shown), and a pressure-proof spacer 80.
  • This air-conditioning garment 6 is mainly used as a garment which is put on at the time of an outdoor activity for a long time (a garment for outdoor). Furthermore, the air-conditioning garment 6 is put on over a predetermined undergarment shown in FIG. 20C.
  • a main specification of this air-conditioning garment 6 is organized in the table of FIG. 6.
  • the air-conditioning garment 6 Since the air-conditioning garment 6 is used for an outdoor activity, its air-conditioning capability is improved to 400 W. With this improvement, as each of the air sending means 50 and 50, means which can cause a parallel-to-body airstream to flow with a flow quantity of 12 liters/second is used.
  • a power consumption of the two air sending means 50 and 50 is approximately 2.5 W.
  • a fan diameter of each air sending means 50 is 55 mm, and a total effective fan area of the two air sending means 50 and 50 is 38 cm 2 .
  • the clothing material portion 200 is subjected to waterproof processing or water-repellent processing as a countermeasure against rain.
  • the air-conditioning garment 6 is provided with the solar battery 66 which charges the secondary battery as the power supplying means 61.
  • This solar battery 66 is disposed at a position on an outer surface side of the clothing material portion 200 corresponding to an upper back region.
  • the solar battery 66 is connected with the secondary battery through the power supply cable 62.
  • the solar battery 66 charges the secondary battery, and electric power is supplied to the air sending means 50 and 50 from this secondary battery.
  • the solar battery 66 may be used as the power supplying means so that electric power from the solar battery 66 can be directly supplied to the air sending means 50 and 50.
  • the air-conditioning garment 6 according to the sixth embodiment is put on over an undergarment.
  • the local spacers 70 and 70 are attached at parts on an outer surface side of the undergarment corresponding to both shoulders.
  • a configuration of the local spacer 70 is the same as that described in the second embodiment. Since the local spacers 70 and 70 are provided to the undergarment, a space in which air is circulated is assuredly formed between the clothing material portion 200 and the undergarment when the air-conditioning garment 6 is put on over the undergarment.
  • a flow quantity of air generated by the air sending means is 12 liters/second, and the clothing material portion is subjected to waterproof processing or water-repellent processing. Therefore, the air-conditioning garment according to the sixth embodiment is preferable for a use in a case where a wearer performs an outdoor activity for a long time.
  • FIG. 21A is a schematic front view of an air-conditioning garment according to the seventh embodiment of the present invention
  • FIG. 21B is a schematic rear view of the air-conditioning garment
  • FIG. 22 is a view illustrating air sending means used in the air-conditioning garment. It is to be noted that, in the seventh embodiment, like reference numerals denote parts having the same functions as those in the fifth embodiment, thereby eliminating their detailed explanation.
  • an air-conditioning garment 7 is provided with a clothing material portion 200, opening/closing means 31a, four air circulating portions 40, 40, 40 and 40a, two air sending means 500 and 500, power supplying means 61, a power supply cable 62, a power supply pocket 63, a power supply switch (not shown), and a planar spacer 90.
  • This air-conditioning garment 7 is mainly used as a garment which prevents an undergarment from smelling of sweat (a garment for deodorization). Therefore, this air-conditioning garment 7 is put on over the undergarment.
  • a main specification of the air-conditioning garment 7 is organized in the table of FIG. 6.
  • Main differences of the air-conditioning garment 7 according to the seventh embodiment from the air-conditioning garment 5 according to the fifth embodiment lie in that an air-conditioning capability is 20 W, that a discharge mode is adopted as an air sending mode of the air sending means 500, and that the planar spacer 90 is provided on the clothing material portion 200. And the air-conditioning area ratio is approximately 35 % in the air-conditioning garment 7. Any other points are the same as those in the fifth embodiment.
  • a main object of the air-conditioning garment 7 according to the seventh embodiment is to rapidly vaporize sweat and prevent the undergarment from smelling of sweat, and it is not necessarily to cool a body. Therefore, the air-conditioning capability of the air-conditioning garment 7 is greatly reduced to 20 W.
  • the air sending means 500 and 500 means which can cause a parallel-to-body airstream to flow with a flow quantity of 0.6 liter/second is used.
  • a power consumption of the two air sending means 500 and 500 is approximately 0.15 W. Since a flow quantity of air generated by the air sending means 500 and 500 is small as described above, noise caused by the air sending means 500 and 500 is very small.
  • means having a fan diameter of 20 mm is used as each of the air sending means 500 and 500. And a total effective fan area of the two air sending means 500 and 500 is 4 cm 2 .
  • the discharge mode is adopted as an air sending mode of the air sending means 500.
  • the air sending means 500 discharges air in the clothing material portion 200 to the outside, whereby a parallel-to-body airstream flows in a space between the clothing material portion 200 and a body (or the undergarment). Therefore, in the seventh embodiment, such a propeller fan as shown in FIG. 22 is used as the air sending means 500.
  • the air sending means 500 has a propeller 501, a motor (not shown), a casing 502, an external fan guard (not shown), and gap holding means (not shown).
  • the propeller 501 is coupled with a rotary shaft of the motor. Further, the propeller 501 and the motor are accommodated in the casing 502.
  • the external fan guard is attached to this casing 502. The external fan guard prevents fingers from entering the casing 502.
  • the air sending means 500 is attached to the clothing material portion 200 from its inner surface side in such a manner that a rotation axis of the propeller 501 becomes substantially vertical to a surface of the clothing material portion 200.
  • gap holding means is provided on a side of the air sending means 500 facing the body. This gap holding means maintains a gap between the propeller 501 and the body at a fixed value H.
  • the propeller 501 rotates in a direction along which air in the clothing material portion 200 is discharged to the outside.
  • arrows indicate a flow of air.
  • a flow quantity of air generated by the air sending means 500 is small in the seventh embodiment, and hence small means can be used as the air sending means 500. Therefore, even if the air-conditioning garment 7 is put on, there is almost no uncomfortable feeling about the appearance. Moreover, when an air discharge opening of the air sending means 500 is covered with a cloth having good air permeability, the air sending means 500 can be hidden from the outside.
  • the discharge mode is adopted as the air sending mode of the air sending means 500, when the air sending means 500 and 500 are driven, a pressure in a space between the clothing material portion 200 and the body (the undergarment) becomes a negative pressure with respect to an outside air pressure. Therefore, when the discharge mode is adopted as the air sending mode, a method of utilizing a pressure of air generated by the air sending means like the first embodiment cannot be adopted as a method of forming a space in which a parallel-to-body airstream is circulated.
  • the discharge mode is adopted as the air sending means
  • a flow quantity of air generated by the air sending means is larger than 6 liters/second
  • a difference between an outside air pressure and a pressure in the clothing material portion becomes large although it depends on characteristics (e.g., hardness or a weight) or a shape of the air guiding means. Therefore, it is very difficult to assure a space in which the parallel-to-body airstream is circulated.
  • the planar spacer 90 is attached to the clothing material portion 200. Specifically, the planar spacer 90 is attached at a part on an inner surface side of the clothing material portion 200 corresponding to the air sending means 500 and 500 and an upper part than that part. This planar spacer 90 assures a space in which air is circulated between the clothing material portion 200 and the body (the undergarment). The requirement for the planar spacer 90 is that a resistance which air receives from the planar spacer 90 is low. It is to be noted that the planar spacer 90 also functions as a pressure-proof spacer.
  • planar spacer 90 it is possible to use one having the same configuration as that of the pressure-proof spacer 80.
  • a light and flexible spacer as the planar spacer 90 attached on the clothing material portion 200 corresponding to an abdominal region or a chest region requiring no resistance to pressure.
  • the planar spacer 90 is sewed on the part on the inner surface side of the clothing material portion 200 corresponding to the air sending means 500 and 500 and the upper part than that part. Specifically, the planar spacer 90 is first arranged at a predetermined position of the clothing material portion 200 in such a manner that a net-like sheet of the planar spacer 90 faces the inner surface of the clothing material portion 200. Additionally, a sewing machine or the like is used to sew the planar spacer 90 on the inner surface of the clothing material portion 200. At this time, it is desirable to sew an end portion alone of the planar spacer 90 on the clothing material portion 200. That is because, a sewing operation of the planar spacer 90 can be facilitated and a seam can be made less noticeable in the appearance of the air-conditioning garment 7.
  • planar spacer 90 does not have to be one continuous spacer, and it may be divided into several parts for facilitation of sewing or the like. Further, it is not required to necessarily attach the planar spacer 90 to the part of the clothing material portion 200 corresponding to the air sending means 500 and 500 and the upper part than that part, and it may be disposed at each necessary position.
  • FIG. 23A is a schematic front view of an air-conditioning garment according to the eighth embodiment of the present invention
  • FIG. 23B is a schematic rear view of the air-conditioning garment. It is to be noted that, in the eighth embodiment, like reference numerals denote parts having the same functions as those in the seventh embodiment, thereby eliminating their detailed explanation.
  • an air-conditioning garment 8 As shown in FIG. 23, an air-conditioning garment 8 according to the eighth embodiment is provided with a clothing material portion 210, opening/closing means 31a, attaching/detaching means 33, four air circulating portions 40, 40, 40 and 40a, two air sending means 500 and 500, power supplying means 61, a power supply cable 62, a power supply pocket 63, a power supply switch (not shown), and planar spacers 90 and 90.
  • This air-conditioning garment 8 is mainly used as a garment which is put on by a young child having a weight of approximately 10 to 15 kg (a garment for children).
  • a main specification of this air-conditioning garment 8 is organized in the table of FIG. 6.
  • the air-conditioning capability of the air-conditioning garment 8 is set to 50 W.
  • means which can cause a parallel-to-body airstream to flow with a flow quantity of 1.4 liters/second is used as each of the air sending means 500 and 500.
  • a power consumption of the two air sending means 500 and 500 is approximately 0.3 W.
  • means having a fan diameter of 25 mm is used as each of the air sending means 500 and 500.
  • a total effective fan area of the two air sending means 500 and 500 is 7 cm 2 .
  • the clothing material portion 210 is configured to be divided into two parts, i.e., upper and lower parts for facilitating washing.
  • an upper part of the clothing material portion 210 is referred to as an upper clothing material portion 210a and a lower part of the same is referred to as a lower clothing material portion 210b.
  • the upper clothing material portion 210a is configured like the clothing material portion in the seventh embodiment. That is, in the upper clothing material portion 210a, a part formed by using a cloth having low air permeability (arm portions and a lower portion) serves as air guiding means, and a part formed by using a cloth having high air permeability (an upper portion) functions as the air circulating portion 40a. On the other hand, the lower clothing material portion 210b serves as air guiding means. In particular, as a material of the lower clothing material portion 210b, a vinyl sheet or the like is used. As a result, when the lower clothing material portion 210b is stained, the stain can be readily removed by wiping off this stain.
  • the two air sending means 500 and 500 are attached to the lower clothing material portion 210b. Furthermore, to the lower clothing material portion 210b are attached the two air sending means 500 and 500, the power supplying means 61, the power supply cable 62, the power supply pocket 63, the power supply switch (not shown) and the planar spacers 90.
  • the upper clothing material portion 210a and the lower clothing material portion 210b are attached to each other by the attaching/detaching means 33.
  • this attaching/detaching means 33 it is possible to use, e.g., a fastener or a Velcro tape. In this manner, the upper clothing material portion 210a and the lower material clothing portion 210b can be readily attached/detached.
  • the lower clothing material portion 210b also serves as the integrated belt described in the second embodiment.
  • FIG. 24A is a schematic front view of an air-conditioning garment according to the ninth embodiment of the present invention
  • FIG. 24B is a schematic rear view of the air-conditioning garment. It is to be noted that, in the ninth embodiment, like reference numerals denote parts having the same functions as those in the first and second embodiments, thereby eliminating their detailed description.
  • an air-conditioning garment 9 is provided with a clothing material portion 20, opening/closing means 31, lower air leak preventing means 32, six air circulating portions 40, 40, 40, 40b, 40b and 40b, one air sending means 50, power supplying means 61a, a power supply cable 62, a power supply pocket 63, a power supply switch (not shown) and local spacers 70 and 70.
  • This air-conditioning garment 9 is mainly used as a workwear utilized for a heavy physical labor (a garment for a heavy duty).
  • a main specification of this air-conditioning garment 9 is organized in the table of FIG. 7.
  • the local spacers 70 and 70 are provided at parts on an inner surface side of the clothing material portion 20 corresponding to both shoulders like the second embodiment. Any other points are the same as those in the first embodiment.
  • the air-conditioning garment 9 according to the ninth embodiment is used when performing a heavy duty, the air-conditioning capability is increased to 2000 W.
  • means which can cause a parallel-to-body airstream to flow with a flow quantity of 60 liters/second is used as the air sending means 50.
  • a power consumption of the air sending means 50 is approximately 20 W.
  • the air sending means 50 Since an air sending capability required for the air sending means 50 is very high, the air sending means 50 which is actually used has a large fan diameter and heavy weight. For example, a fan diameter of the air sending means 50 is at least 100 mm. Actually, in the ninth embodiment, means having a fan diameter of 150 mm and a total effective fan area of 150 cm 2 is used as the air sending means 50. Therefore, when the air sending means 50 is attached on the clothing material portion 20 so that a weight of the air sending means 50 is received by the clothing material portion 20 alone, there are various problems. For example, the air sending means 50 readily comes off the clothing material portion 20. Thus, in the ninth embodiment, an ingenuity is exercised with respect to an attachment method of the air sending means 50.
  • one large hole portion is provided at a central part of a back region of the clothing material portion 20, and the air sending means 50 is disposed to this hole portion.
  • a structure and an attachment/detachment method of the air sending means 50 are basically the same as those described in the first embodiment.
  • a sling (slinging means) 56 for carrying the air sending means 50 on a wearer's back is provided at the air sending means 50. The wearer puts the sling 56 on his/her shoulders to carry the air sending means 50 on his/her back. As a result, a weight of the air sending means 50 can be received by not only the clothing material portion 20 but also the shoulders of the wearer.
  • the air sending means 50 can be prevented from readily coming off the clothing material portion 20. It is to be noted that one which supports the weight of the air sending means 50 from the outside of the clothing material portion 20 does not have to be necessarily used as the slinging means, and the slinging means may be attached inside of the clothing material portion 20 or stitched on an inner surface of the clothing material portion 20.
  • the air sending means 50 when the air sending means 50 is disposed at the back part of the clothing material portion 20 and means which can generate air which flows with a flow quantity of at least 10 liters/second is used as the air sending means 50, the air-conditioning garment 9 which is very rational to be used as a workwear for a work in a standing position can be obtained.
  • one air sending means 50 alone is provided at a part corresponding to the back region of the clothing material portion 20 and means which can generate air which flows with a flow quantity of at least 15 liters/second between the clothing material portion 20 and a body or an undergarment is used as the air sending means 50
  • a utility workwear for a work in a standing position can be manufactured at the lowest cost.
  • a fan diameter of the air sending means 50 must be at least 60 mm in order to cause air to flow with a flow quantity of 15 liters/second between the clothing material portion 20 and the body or the undergarment.
  • auxiliary opening portions 40b, 40b and 40b as well as the upper opening portions 40, 40 and 40 are provided as the air circulating portions.
  • the three auxiliary opening portions 40b, 40b and 40b are respectively provided at a front left part, a front right part and an upper part of the back in the clothing material portion 20.
  • the auxiliary opening portion 40b is formed by, e.g., boring a hole at a predetermined position of the clothing material portion 20 and stitching a material having good air permeability on the clothing material portion 20 to close this hole.
  • a cloth having high air permeability a mesh-like sheet or the like is used as a cloth having high air permeability.
  • a fuel battery is used as the power supplying means 61a. That is because the air sending means 50 sends a large amount of air and has a large power consumption, and hence using a general battery is not practical. Since a current which can be caused to instantaneously flow by the fuel battery is small as compared with a capacity thereof, a capacitor or the like having a large capacity must be also used when a large current must be caused to instantaneously flow. However, a large current does not have to be caused to instantaneously flow in the air-conditioning garment 9, and hence the fuel battery is very suitable as a power source of the air-conditioning garment 9.
  • the air-conditioning garment according to the ninth embodiment since a flow quantity of air generated by the air sending means is 60 liters/second, the air-conditioning garment according to the ninth embodiment is preferable for a use in a case where a wearer performs a heavy duty.
  • FIG. 25A is a schematic front view of an air-conditioning garment according to the 10th embodiment of the present invention
  • FIG. 25B is a schematic rear view of the air-conditioning garment. It is to be noted that, in the 10th embodiment, like reference numerals denote parts having the same functions as those in the second embodiment, thereby eliminating their detailed explanation.
  • an air-conditioning garment 10 is provided with a clothing material portion 220, opening/closing means 31, five air circulating portions 40, 40, 40, 40c and 40c, two air sending means 50 and 50, power supplying means 61, a power supply cable 62, a power supply pocket (accommodating means) 63, an integrated belt 640, a power supply switch (not shown), and local spacers 70 and 70.
  • This air-conditioning garment 10 is applied to a workwear in which a jacket and pants are connected as one (a jumpsuit type garment).
  • a main specification of this air-conditioning garment 10 is organized in the table of FIG. 7.
  • Main differences of the air-conditioning garment 10 according to the 10th embodiment from the air-conditioning garment 2 according to the second embodiment lie in that the clothing material portion 220 covers not only an upper body but also a lower body, that an air-conditioning capability is 500 W, that the power supplying means 61 is attached on a rear side of a breast pocket, and that the integrated belt 640 which is used to attach the air sending means 50 and 50 is detachably disposed at a position corresponding to a lumbar region on an inner surface side of the clothing material portion 220. Any other points are the same as those in the second embodiment.
  • the clothing material portion 220 covers not only the upper body but also the lower body. Therefore, a parallel-to-body airstream also flows to the lower body, and a nearly all part of a body surface excluding a part above a neck can be wrapped with the parallel-to-body airstream.
  • the opening portions 40c and 40c in hems of leg parts serve as the air circulating portions.
  • an air-conditioning area ratio of this air-conditioning garment 10 is approximately 80 %. It is to be noted that, in FIG. 25, each arrow indicates an outflow direction of air.
  • the air-conditioning capability of the air-conditioning garment 10 is increased to 500 W.
  • means which can cause the parallel-to-body airstream to flow with a flow quantity of 14 liters/second is used as each of the air sending means 50 and 50.
  • a power consumption of the two air sending means 50 and 50 is approximately 3 W.
  • means having a fan diameter of 70 mm is used as each of the air sending means 50 and 50.
  • a total effective fan area of the two air sending means 50 and 50 is 62 cm 2 .
  • the breast pocket is provided at an upper left part on outer surface side of the clothing material portion 220.
  • the power supply pocket 63 is attached on an inner surface side of the clothing material portion 220 at a position corresponding to the breast pocket.
  • a secondary battery as the power supplying means 61 is accommodated in the power supply pocket 63.
  • a size of the power supply pocket 63 is set to be equal to or smaller than a size of the breast pocket, and the power supply pocket 63 is stitched on the clothing material portion 220. Therefore, since a seam of the power supply pocket 63 can be covered with and hidden by the breast pocket, there is an advantage that this seam cannot be seen from the outside. Additionally, the breast pocket usually accommodates a thing therein.
  • the power supplying means 61 can be readily replaced by slightly opening a fastener as the opening/closing means 31. It is to be noted that the fastener must be opened to a lower position at the time of replacement of the power supplying means 61 as an attachment position of the power supply pocket is lowered. This also applies to not only the case using the fastener but also a case using buttons or any other opening/closing means.
  • the integrated belt 640 is a band-like member which is used to attach the two air sending means 50 and 50 and the power supply cable 62.
  • An object of this integrated belt 640 is substantially the same as that of the integrated belt used in the second embodiment.
  • the power supplying means 61 is accommodated in the power supply pocket 63 provided at a breast part of the closing material portion 220, it is not attached to the integrated belt 640.
  • a material having low air permeability is used as a base sheet of the integrated belt, and hence a large structural difference from the integrated belt used in the second embodiment lies in that this base sheet also functions as air guiding means.
  • FIG. 26A is a schematic front view of an air-conditioning garment according to the 11th embodiment of the present invention
  • FIG. 26B is a schematic rear view of the air-conditioning garment. It is to be noted that, in the 11th embodiment, like reference numerals denote parts having the same functions as those in the second embodiment, thereby eliminating their detailed explanation.
  • an air-conditioning garment 11 As shown in FIG. 26, an air-conditioning garment 11 according to the 11th embodiment is provided with a clothing material portion 230, opening/closing means 31b, lower air leak preventing means 32, three air circulating portions 40, 40 and 40, 20 air sending means 50, power supplying means 61a, a power supply cable 62, an integrated belt 64, a power supply switch (not shown), and local spacers 70 and 70.
  • This air-conditioning garment 11 is mainly applied to an intermediate wear which is put on under a fashionable wear having good air permeability by women (an intermediate garment).
  • a main specification of this air-conditioning garment 11 is organized in the table of FIG. 7.
  • Main differences of the air-conditioning garment 11 according to the 11th embodiment from the air-conditioning garment 2 according to the second embodiment lie in that the air-conditioning garment 11 is of a sleeveless type having no sleeve portions, that a Velcro tape is used as the opening/closing means 31b, that the 20 air sending means 50 are attached on the integrated belt 64, and that a fuel battery is used as the power supplying means 61a. Any other points are the same as those in the second embodiment.
  • each air sending means 50 Since a garment having good air permeability is put on over the air-conditioning garment 11 according to the 11th embodiment, disfigurement of the appearance of this garment must be prevented from being caused. Therefore, thin and small means is used as each air sending means 50. Specifically, it is desirable to use means having a thickness of at most 6 mm as the air sending means 50. Moreover, since an air sending quantity of the single small air sending means 50 is small, a total of 20 air sending means 50 are dispersed and attached on the integrated belt 64. Generally, it is desirable to provide at least 10 air sending means 50. Additionally, since efficiency of a motor of the small air sending means 50 is very poor, a large power is required to obtain a desired flow quantity of a parallel-to-body airstream. The fuel battery is used as the power supplying means 61a taking this point into consideration.
  • each of the 20 air sending means 50 means which can cause a parallel-to-body airstream to flow with a flow quantity of 6 liters/second is used as each of the 20 air sending means 50.
  • a fan diameter of each air sending means 50 is 20 mm, and a total effective fan area of the 20 air sending means 50 is 45 cm 2 .
  • a power consumption of the 20 air sending means 50 is approximately 8 W.
  • an air-conditioning capability of the air-conditioning garment 11 is approximately 200 W. It is to be noted that an air-conditioning area ratio of this air-conditioning garment 11 is approximately 30 %.
  • FIG. 27A is a schematic front view of an air-conditioning garment according to the 12th embodiment
  • FIG. 27B is a schematic rear view of the air-conditioning garment
  • FIG. 28 is a view illustrating air sending means used in the air-conditioning garment. It is to be noted that, in the 12th embodiment, like reference numerals denote parts having the same functions as those in the seventh embodiment, thereby eliminating their detailed explanation.
  • an air-conditioning garment 12 As shown in FIG. 27, an air-conditioning garment 12 according to the 12th embodiment is provided with a clothing material portion 200, opening/closing means 31a, four air circulating portions 40, 40, 40 and 40a, two air sending means 50 and 50, power supplying means 61b, a power supply cable 62, a power supply pocket 63, a power supply switch (not shown) and a planar spacer 90.
  • This air-conditioning garment 12 is applied to an intermediate wear which is put on between an overgarment and a body or an undergarment in a season requiring an overgarment and is intended to adjust a body temperature (a garment for temperature adjustment).
  • a main specification of this air-conditioning garment 12 is organized in the table of FIG. 7.
  • Main differences of the air-conditioning garment 12 according to the 12th embodiment from the air-conditioning garment 7 according to the seventh embodiment lie in that the air-conditioning garment 12 is put on under an overgarment, that a side stream fan is used as each of the air sending means 50 and 50, and the air sending means 50 and 50 are attached on an outer surface side of the clothing material portion 200, and that a primary battery is used as the power supplying means 61b. Furthermore, means which can cause a parallel-to-body airstream to flow with a flow quantity of 1.4 liters/second is used as each of the air sending means 50 and 50. A fan diameter of each air sending means 50 is 35 mm, and a total effective fan area of the two air sending means 50 and 50 is 15 cm 2 .
  • a power consumption of the two air sending means 50 and 50 is approximately 2 W.
  • an air-conditioning capability of the air-conditioning garment 12 is approximately 50 W, and an air-conditioning area ratio of the same is approximately 30 %. Any other points are the same as those in the seventh embodiment.
  • thermogenesis is temporarily involved to increase a body temperature, and liquid-like type sweat is exuded in some instances.
  • a passenger may feel stifling and want to take off the overgarment, but he/she cannot take off his/her overgarment because of a fully loaded state, and hence he/she must bear with stifling air in some cases.
  • the air-conditioning garment 12 according to the 12th embodiment is used in such a situation.
  • a parallel-to-body airstream is temporarily circulated between the air-conditioning garment 12 and a body or an undergarment to increase a temperature gradient in the vicinity of a surface of the body, thereby cooling the body. Further, sweat from the body is brought into contact with the parallel-to-body airstream to vaporize sweat from the body, and an effect of drawing vaporization heat from the periphery at the time of vaporization is utilized to cool the body.
  • the air sending means 50 and 50 must generate a parallel-to-body airstream which flows with a flow quantity of at least 0.01 liter/second per kg of a weight of a wearer in order to obtain a sufficient cooling effect.
  • such a side stream fan as shown in FIG. 10 is used as each of the air sending means 50 and 50.
  • the air sending means 50 and 50 are attached on an outer side of the clothing material portion 200 as shown in FIG. 28. Therefore, a space having a gap h corresponding to a thickness of the air sending means 50 is generated between an overgarment and the clothing material portion 200.
  • the air sending means 50 and 50 suck air flowing in the space between the clothing material portion 200 and the body or the undergarment and discharge air in a direction substantially parallel with a surface of the clothing material portion 200 in the space between the clothing material portion 200 and the overgarment.
  • air which exists between the clothing material portion 200 and the body or the undergarment and has been warmed by a body temperature can be replaced with outside air.
  • a high air sending capability is required as a capability of the air sending means 50.
  • the air sending means 50 means which has air sending pressure characteristics that a maximum static pressure, i.e., a pressure at a position where a flow quantity becomes zero falls within a range of 30 Pa to 300 Pa.
  • a wearer can turn on the power supply switch only when he/she feels stifling, thereby cooling his/her body temperature.
  • FIG. 29A is a schematic front view of an air-conditioning garment according to the 13th embodiment of the present invention
  • FIG. 29B is a schematic rear view of the air-conditioning garment
  • FIG. 29C is a view illustrating lower air leak preventing means used in the air-conditioning garment.
  • an air-conditioning garment 13 As shown in FIG. 29, an air-conditioning garment 13 according to the 13th embodiment is provided with a clothing material portion 20, lower air leak preventing means 32a, three air circulating portions 40, 40 and 40, two air sending means 50 and 50, power supplying means 61, a power supply cable 62, a power supply pocket 63, a power supply switch (not shown), and local spacers 70 and 70.
  • This air-conditioning garment 13 is applied to a daily garment having no opening/closing means on a front part like a T-shirt. Such a garment will be also referred to as a "T-shirt type garment" hereinafter.
  • a main specification of this air-conditioning garment 13 is organized in the table of FIG. 8.
  • Main differences of the air-conditioning garment 13 according to the 13th embodiment from the air-conditioning garment 1 according to the first embodiment lie in that opening/closing means is not provided, that a band-like clothing material is used as the lower air leak preventing means 32a, and that the local spacers 70 and 70 are provided at parts corresponding to both shoulders of the clothing material portion 20. Further, means which can cause a parallel-to-body airstream to flow with a flow quantity of 12 liters/second is used as each of the air sending means 50 and 50.
  • a fan diameter of each air sending means 50 is 60 mm, and a total effective fan area of the two air sending means 50 and 50 is 45 cm 2 .
  • a power consumption of the two air sending means 50 and 50 is approximately 2.5 W.
  • an air-conditioning capability of the air-conditioning garment 12 is approximately 400 W, and an air-conditioning area ratio of the same is approximately 35 %. Any other points are the same as those in the first embodiment.
  • the opening/closing means is not provided in the air-conditioning garment 13, a wearer pulls over the air-conditioning garment 13.
  • a T-shirt or the like which is pulled over in this manner is usually put on in a state where its hem portion is hung to the outside without being tucked into pants.
  • the lower air leak preventing means 32a means for providing an elastic member, e.g., rubber into a band-like clothing material rather than means for providing rubber into a hem portion of the clothing material portion 20 is used as the lower air leak preventing means 32a.
  • the lower air leak preventing means 32a is constituted of the band-like clothing material and an elastic member. Further, as shown in FIG.
  • the band-like clothing material is stitched on the inner surface side of the clothing material portion 20 at a position in the vicinity of the hem portion of the clothing material portion 20 along a direction around a waist. Furthermore, the elastic member is put into an end portion of the band-like clothing material on the body side, thereby making gathering. As a result, when the air-conditioning garment 13 is put on, the end portion of the band-like clothing material in which the elastic member is provided is appressed against the body, the undergarment or a garment. Therefore, even when this air-conditioning garment 13 is put on in a state where the hem portion hangs down limply, the lower air leak preventing means 32a can prevent air from leaking from the hem portion to the outside.
  • FIG. 30A is a schematic front view of an air-conditioning garment according to the 14th embodiment of the present invention
  • FIG. 30B is a schematic rear view of the air-conditioning garment
  • FIG. 31 is a schematic block diagram of a circuit portion in this air-conditioning garment.
  • an air-conditioning garment 14 is provided with a clothing material portion 200, opening/closing means 31a, four air circulating portions 40, 40, 40 and 40a, two air sending means 50 and 50, power supplying means 61a, power supply cables 62, a power supply pocket 63, a power supply switch (not shown), a pressure-proof spacer 80, two power supply connectors 111 and 112, five sensors 121, 122, 123, 124 and 125, and a circuit portion 130.
  • a fan diameter of each air sending means 50 is 60 mm
  • a total effective fan area of the two air sending means 50 and 50 is 45 cm 2 .
  • an air-conditioning area ratio of this air-conditioning garment 14 is approximately 40 %.
  • Various functions utilizing information processing, a communication technology and others are added to this air-conditioning garment 14.
  • Such a garment having various functions added thereto will be also referred to as a "high-function type garment” hereinafter.
  • a main specification of this air-conditioning garment 14 is organized in the table of FIG. 8.
  • Main differences of the air-conditioning garment 14 according to the 14th embodiment from the air-conditioning garment 5 according to the fifth embodiment lie in that a fuel battery is used as the power supplying means 61a and that various functions such as a function of supplying electric power to other devices, a function of automatically adjusting a flow quantity of a parallel-to-body airstream, a function as a health management garment, an Internet communicating function and others are provided. Any other points are the same as those in the fifth embodiment.
  • each power supply cable 62 connects the power supplying means 61a and respective power supply connectors 111 and 112, connects the power supplying means 61a and the circuit portion 130, and connects the circuit portion 130 and the respective air sending means 50 and 50. Electric power from the power supplying means 61a is supplied to the respective air sending means 50 and 50 through the circuit portion 130.
  • the power supply connector 111 is a connector used to supply electric power to a mobile phone or the like, and is attached in a breast pocket. For example, when a mobile phone is put in the breast pocket and a battery charging connector of the mobile phone is brought into contact with the power supply connector 111, a battery of the mobile phone can be charged.
  • the power supply connector 112 is a connector used to supply electric power to a air-conditioning hat or an air-conditioning helmet to which the same principle as the air-conditioning garment according to the present invention is applied.
  • five sensors 121 to 125 are attached to the air-conditioning garment 14. That is, they are a body temperature sensor (body temperature detecting means) 121, a pulse sensor (pulse detecting means) 122, a temperature sensor 123, a humidity sensor 124, and a GPS sensor 125.
  • the body temperature sensor 121 detects a body temperature of a wearer
  • the pulse sensor 122 detects a wearer's pulse.
  • the body temperature sensor 121 and the pulse sensor 122 are attached at predetermined positions which are in contact with a body.
  • the temperature sensor 123 detects a temperature of outside air
  • the humidity sensor 124 detects humidity of outside air.
  • the temperature sensor 123 and the humidity sensor 124 are attached on an outer side of the clothing material portion 200.
  • the GPS sensor 125 detects position information. Detection results obtained by these respective sensors 121 to 125 are transmitted to calculating means in the circuit portion 130.
  • the body temperature sensor 121 and the pulse sensor 122 will be generically referred to as a "physical condition sensor (physical condition detecting means)"
  • the temperature sensor 123 and the humidity sensor 124 will be generically referred to as an "environment sensor” hereinafter.
  • the circuit portion 130 is provided with an input interface 131, storing means 132, calculating means 133, fan controlling means (drive controlling means) 134, communicating means 135 and an output interface 136.
  • the input interface 131 there is, e.g., an input terminal for a keyboard.
  • a wearer can connect a keyboard to the input terminal and use this keyboard to input various kinds of information before putting on the air-conditioning garment 14.
  • Personal information of a wearer is stored in the storing means 132.
  • the personal information there are, e.g., a height, a weight, a body temperature/pulse when well-conditioned, a blood group, a physical condition of the day and others.
  • a wearer can input such information by using the keyboard.
  • various kinds of information such as a wearer's address, a phone number and others as well as the above-described information can be stored in the storing means 132.
  • the communicating means 135 transmits/receives data concerning a physical condition or the like detected by the various sensors 121 to 125 to/from external receiving means. Furthermore, as the output interface 136, there is, e.g., an audio output terminal for a speaker. As a result, a wearer can hear sounds or the like from a speaker.
  • the calculating means 133 estimates a sweating quantity required for a human body to perform appropriate heat radiation in accordance with the situation at the time based on detection results obtained by the physical condition sensor and the environment sensor, and calculates a flow quantity of a parallel-to-body airstream required to vaporize all of the sweating quantity. A calculation result obtained by the calculating means 133 is transmitted to the fan controlling means 134. Moreover, the calculating means 133 also functions as controlling means for controlling respective portions.
  • the fan controlling means 134 determines drive conditions of the air sending means 50 and 50 based on the flow quantity of the parallel-to-body airstream calculated by the calculating means 133, and controls driving of the air sending means 50 and 50 in accordance with the determined drive conditions.
  • the drive conditions of the air sending means 50 and 50 e.g., the number of revolutions of a motor is used. That is because, when the number of revolutions of the motor is determined, a flow quantity of the parallel-to-body airstream is also determined.
  • the fan controlling means 134 controls the number of revolutions of the air sending means 50 by changing a voltage which is supplied to the air sending means 50.
  • a DC-DC converter (DC-DC converting means) capable of changing an output voltage between the power supplying means 61a and the air sending means 50 and 50.
  • the fan controlling means 134 controls the DC-DC converter to change a quantity of power supplied to the air sending means 50 and 50, thereby controlling a flow quantity of air generated from the air sending means 50 and 50.
  • an appropriate quantity of air can be automatically allowed to flow into the clothing material portion 200 in accordance with a physical condition of a wearer or a temperature/humidity of outside air.
  • a physical condition of a wearer or a temperature/humidity of outside air e.g., one which subjects an output voltage to PWM modulation and then rectifies the PWM-modulated voltage by using a capacitor may be utilized as the DC-DC converter.
  • each of the air sending means 50 and 50 means which can cause a parallel-to-body airstream to flow with a flow quantity of up to 47 liters/second is used as each of the air sending means 50 and 50.
  • a power consumption of the two air sending means 50 and 50 is 40W.
  • an air-conditioning capability of the air-conditioning garment 14 is 1500 W at the maximum level.
  • the physiological cooler is not affected.
  • a flow quantity of the parallel-to-body airstream is always fixed, the air-conditioning capability is fixedly determined. Therefore, even if a quantity of heat radiation which is physiologically required by a body is small, a power consumption of the air sending means 50 and 50 is fixed. As a result, a time in which the air sending means 50 and 50 can be driven with one refueling operation to the power supplying means 61a is reduced. This point is the same in a case where a secondary battery is used as the power supplying means.
  • a flow quantity of a parallel-to-body airstream can be automatically controlled in accordance with a quantity of heat radiation which is physiologically required by the body at the time. Therefore, not only wasteful use of a fuel (or a battery) can be suppressed, but also a lifetime of the air sending means 50 and 50 can be prolonged.
  • ambient noise is small in an environment where a light duty such as an office work is performed, but ambient noise is large in an environment where a heavy labor is carried out.
  • the air-conditioning garment 14 according to the 14th embodiment since a flow quantity of the parallel-to-body airstream is automatically controlled in accordance with a quantity of heat radiation which is physiologically required by the body, the number of revolutions of the air sending means 50 and 50 is reduced and noise generated from the air sending means 50 and 50 is decreased in case of putting on the air-conditioning garment 14 in a quiet environment such as an office. Therefore, a wearer himself/herself and people around him/her do not feel that noise of the air-conditioning garment 14 is disturbing.
  • a sweating quantity required for the body to perform appropriate heat radiation in accordance with a situation at the time cannot be accurately estimated by just using detection results from the physical condition sensor and the environment sensor in some cases. That is because there is an individual difference in a quantity of heat radiation physiologically required by the body in accordance with a situation of work.
  • the calculating means 133 it is desirable for the calculating means 133 to estimate a sweating quantity by using personal information of a wearer such as a weight, a physical condition of the day and others stored in the storing means 132 in addition to detection results from the physical condition sensor and the environment sensor.
  • the calculating means 133 can accurately and meticulously determine a sweating quantity required for the body to perform appropriate heat radiation in accordance with a situation at the time.
  • the calculating means 133 further performs the following processing. That is, the calculating means 133 judges whether a body temperature or a pulse falls within a predetermined reference range based on the body temperature/pulse detected by the physical condition sensor. When it is determined that the body temperature or the pulse is out of the reference range, a predetermined warning is generated from a speaker connected to the output interface 136. As a result, a wearer can immediately know that a problem has occurred in his/her body temperature or pulse.
  • information about the reference range of the body temperature and the pulse is stored in the storing means 132 in advance.
  • the calculating means 133 judges whether each of a body temperature and a pulse falls within a predetermined reference range based on the body temperature/pulse detected by the physical condition sensor and determines that, e.g., the pulse exceeds a predetermined abnormal value
  • the calculating means 133 generates information concerning a physical condition based on detection results obtained by the physical condition sensor and transmits the information concerning the physical condition to the communicating means 135.
  • This abnormal value is stored in the storing means 132 in advance.
  • the communicating means 135 transmits the information concerning the physical condition to external receiving means.
  • the receiving means is installed in, e.g., a wearer's family hospital.
  • the "information concerning the physical condition” includes not only the body temperature/pulse (the physical condition) detected by the physical sensor but also position information detected by the GPS sensor 125 and personal information of a wearer stored in the storing means 132.
  • position information detected by the GPS sensor 125 is included in the "predetermined information"
  • a person responsible in a hospital where the receiving means is installed can specify a place where a wearer is based on this position information. Therefore, when a wearer is involved in a physical emergency situation, an ambulance or the like can be rapidly informed of a place of the wearer (a patient).
  • various sensors such as a sensor which checks a state of a heart can be used besides the body temperature sensor 121, the pulse sensor 122 as the physical condition sensor.
  • the function as the health management garment provided in the air-conditioning garment 14 can be further improved.
  • the Internet communicating function provided in the air-conditioning garment 14 will now be described.
  • a function of connecting to the Internet to perform communication is added to the communicating means 135.
  • inputting means such as a keyboard is connected to the input interface 131, and outputting means for outputting information downloaded through the Internet is connected to the output interface 136.
  • desired music can be downloaded through the Internet by operating the keyboard, and this music can be output from the speaker.
  • a headphone may be connected to a headphone audio output terminal of the output interface 136 so that a wearer can listen to the music from the headphone.
  • a wearer when a video output terminal is provided to the output interface 136 and a spectacles type visual display device is connected to this video output terminal, a wearer can put on this spectacles type visual display device to view a downloaded picture.
  • a terminal for a voice input device it is desirable to provide a terminal for a voice input device to the input interface 131 and perform voice input through the voice input device in place of the keyboard.
  • a wearer can readily perform an input operation, and hence the Internet communicating function of the air-conditioning garment 14 can be further exploited.
  • the calculating means calculates a quantity of heat radiation which is physiologically required by a human body at the time based on a physical condition of a wearer and a temperature/humidity of outside air, and a flow quantity of a parallel-to-body airstream can be automatically controlled in accordance with the quantity of heat radiation. Therefore, when this air-conditioning garment is put on, a wearer can obtain a cooling effect appropriate for himself/herself irrespective of a body type of the wearer or contents of work.
  • the body temperature sensor and the pulse sensor are used as the physical condition sensor in the 14th embodiment, but the body temperature sensor alone may be used as the physical condition sensor.
  • a sweating quantity is estimated based on detection results obtained by the physical condition sensor and the environment sensor to determine a flow quantity of a parallel-to-body airstream in the 14th embodiment.
  • the physical condition sensor when the physical condition sensor is used, the physical condition sensor must be attached at a position which is in contact with a body, and this attachment is slightly troublesome. Therefore, a work volume sensor (work volume detecting means) such as an acceleration sensor which detects an approximate value of a work volume in accordance with movements of a body may be used in place of the physical condition sensor.
  • This work volume sensor does not have to be necessarily attached at a position which is in contact with the body, and it may be attached at any position of the air-conditioning garment.
  • the calculating means estimates a sweating quantity required for a human body to perform appropriate heat radiation in accordance with a situation at the time based on detection results obtained by the work volume sensor and the environment sensor.
  • the air-conditioning garment according to the 14th embodiment has a sufficient utility value when it is provided with the function as the health management garment or the Internet communicating function even if the function of cooling down a body is not provided.
  • FIG. 32A is a schematic front view of an air-conditioning garment according to the 15th embodiment of the present invention
  • FIG. 32B is a schematic rear view of the air-conditioning garment
  • FIG. 33A is a schematic front view of air sending means used in the air-conditioning garment
  • FIG. 33B is a schematic side view of the air sending means.
  • FIG. 34A is a view illustrating a state where the air-conditioning garment is put on
  • FIG. 34B is a view illustrating a state of a belt portion when the air-conditioning garment is put on.
  • an air-conditioning garment 15 As shown in FIG. 32, an air-conditioning garment 15 according to the 15th embodiment is provided with a clothing material portion 200, opening/closing means 31a, four air circulating portions 40, 40, 40 and 40a, two air sending means 550 and 550, a pressure-proof spacers 80 and 800 and a remote control transmitter (remote control transmitting means) 140.
  • This air-conditioning garment 15 is obtained by improving the air-conditioning garment 5 for office use according to the fifth embodiment.
  • This air-conditioning garment 15 will be also referred to as an "improved air-conditioning garment for office use" hereinafter.
  • a main specification of this air-conditioning garment 15 is organized in the table of FIG. 8.
  • Main differences of the air-conditioning garment 15 according to the 15th embodiment from the air-conditioning garment 5 according to the fifth embodiment lie in that revolution control of the respective air sending means 550 and 550 is performed by the remote control transmitter 140 and that the pressure-proof spacer 800 is provided at a position on an inner surface side of the clothing material portion 200 corresponding to a lumbar region. Any other points are the same as those in the fifth embodiment.
  • a so-called hybrid fan is used as the air sending means 550.
  • a basic structure of this air sending means 550 is substantially the same as that of the air sending means 50 shown in FIGS. 10 and 11, but the air sending means 550 is different from the air sending means 50 in that it is provided with power supplying means 551, a receiving circuit (receiving means) 552 and a control circuit (controlling means) 553 as shown in FIG. 33 in addition to respective constituent elements of the air sending means 50.
  • a tabular mounting portion 555 is provided to an internal fan guard of the air sending means 550, and the power supplying means 551, the receiving circuit 552 and the control circuit 553 are disposed on the mounting portion 555.
  • the power supplying means 551 supplies electric power to the air sending means 550.
  • a capacitor is used as the power supplying means 551.
  • the capacitor is very suitable to be used as a power source for the air-conditioning garment because its duration of life is very long, it can be charged in a short time and safety is high, for example.
  • the receiving circuit 552 receives a signal from the remote control transmitter 140.
  • the control circuit 553 controls driving of the air sending means 550 based on a signal received by the receiving circuit 552.
  • the remote control transmitter 140 functions as flow quantity adjusting means for adjusting a flow quantity of air generated by the air sending means 550 and 550. Specifically, the remote control transmitter 140 transmits a signal which instructs to turn on/off the air sending means 550 and 550 and a signal which instructs to adjust an air sending quantity to a predetermined quantity.
  • the power supplying means 551 is disposed to the air sending means 550 itself in this manner, the power supplying means 551 does not have to be connected to the air sending means 550 through a power supply cable, and there is also an advantage that removing the air sending means 550 and 550 can suffice when washing the air-conditioning garment 15. Moreover, a wearer can operate the remote control transmitter 140 to readily adjust a flow quantity of air generated by the air sending means 550 and 550.
  • the pressure-proof spacer 800 is attached at a position corresponding to a lumbar region on the inner surface side of the clothing material portion 200. Specifically, the pressure-proof spacer 800 is attached at a position of the clothing material portion 200 corresponding to at least a belt portion of pants when a hem portion of the clothing material portion 200 is tucked into the pants. A configuration of this pressure-proof spacer 800 is substantially the same as that of the pressure-proof spacer 80 attached at a back part of the clothing material portion 200.
  • this pressure-proof spacer 800 is provided, as shown in FIG. 34, even if the hem portion of the clothing material portion 200 is tucked into the pants and the belt of the pants is fastened, the hem portion of the clothing material portion 200 is not appressed against a body or an undergarment. Therefore, a part of a parallel-to-body airstream generated by the air sending means 550 and 550 is also sent to a lower body through the pressure-proof spacer 800. Therefore, when a material from which air rarely leaks is used as a clothing material of the pants, the pants can function as air guiding means, and an opening portion at each hem portion of the pants can serve as an air circulating portion.
  • a parallel-to-body airstream can be caused to flow in not only the air-conditioning garment 15 but also the pants. Therefore, an air-conditioning area ratio can be greatly improved. For example, when a wearer puts on the pants as the air guiding means together with the air-conditioning garment 15, the air-conditioning area ratio is improved to approximately 80 %.
  • the pressure-proof spacer 800 does not have to be necessarily attached at the hem portion of the clothing material portion 200. As described above, the pressure-proof spacer 800 functions to prevent the hem portion of the clothing material portion 200 from being appressed against the body or the undergarment when a belt or the like of the pants is fastened on the body, and to assure an air circulating space to the lower body. Therefore, as an attachment method of the pressure-proof spacer 800, any method can be used as long as it is a method by which the pressure-proof spacer 800 can exist between the clothing material portion 200 and the body or the undergarment.
  • the pressure-proof spacer 800 it is good enough for the pressure-proof spacer 800 to be provided at a position corresponding to at least the belt portion of the pants when the hem portion of the clothing material portion 200 is tucked in the pants (a garment for a lower body).
  • the pressure-proof spacer 800 may be attached on an outer surface of a stomach band. In this case, a wearer puts on the air-conditioning garment 15 after wearing the stomach band. As a result, an air circulating space can be assured between the clothing material portion 200 and the stomach band.
  • the wearer since a wearer can use the remote control transmitter to adjust a flow quantity of a parallel-to-body airstream, the wearer can obtain a cooling effect suitable for himself/herself irrespective of a body type of the wearer or contents of work.
  • FIG. 35A is a schematic front view of an air-conditioning garment according to the 16th embodiment of the present invention
  • FIG. 35B is a schematic rear view of the air-conditioning garment
  • FIG. 36A is a schematic plan view when an air-conditioning belt used in the air-conditioning garment is seen from a rear surface side
  • FIG. 36B is a view illustrating a state where the air-conditioning belt is fastened
  • FIG. 37 is a schematic side view of air sending means used in the air-conditioning garment.
  • like reference numerals denote parts having the same functions as those in the first embodiment, thereby eliminating their detailed explanation.
  • an air-conditioning garment 16 according to the 16th embodiment is provided with an upper clothing material portion 260 which covers an upper part of an upper body, a lower clothing material portion 270 which covers a lower part of the upper body, two opening/closing means 31 and 31, two attaching/detaching means 34 and 34, three air circulating portions 40, 40 and 40, and an air-conditioning belt 150.
  • the air-conditioning garment is produced while exploiting a general clothing conformation in the first to 15th embodiments, the clothing material portion is divided into upper and lower portions by using the air-conditioning belt 150 in the 16th embodiment.
  • the air-conditioning garment 16 according to the 16th embodiment will be also referred to as an "air-conditioning belt type garment" hereinafter. A main specification of this air-conditioning garment 16 is organized in the table of FIG. 8.
  • the upper clothing material portion 260 covers the body above an umbilical region, and the lower clothing material portion 270 covers a lumbar region.
  • the upper clothing material portion 260 and the lower clothing material portion 270 function as air guiding means. Therefore, a material from which air rarely leaks is used as a material of the upper clothing material portion 260 and the lower clothing material portion 270.
  • fasteners as the opening/closing means 31 and 31 are respectively provided at a front part of the upper clothing material portion 260 and a front part of the lower clothing material portion 270.
  • a lower end of the upper clothing material portion 260 is detachably disposed to an upper end of the air-conditioning belt 150 by the attaching/detaching means 34, and an upper end of the lower clothing material portion 270 is detachably disposed to a lower end of the air-conditioning belt 150 by the attaching/detaching means 34.
  • fasteners are used as the attaching/detaching means 34 and 34. Therefore, when the upper clothing material portion 260 and the lower clothing material portion 270 are attached to the air-conditioning belt 150, the air-conditioning garment 16 is brought to completion.
  • the air-conditioning belt 150 is provided with a belt-like base member (a band-like member) 151, two air sending means 560 and 560, fan controlling means 152, power supplying means 61, a power supply switch (not shown), flow quantity adjusting means (not shown), a plurality of pressure-proof spacers 153, and Velcro tapes 154a and 154b. Electrical components such as air sending means 560 and 560, fan controlling means 152, power supplying means 61 and others are attached on a rear surface of the base member 151.
  • the two air sending means 560 and 560 are attached at predetermined positions on the base member 151.
  • the air sending means 560 is a so-called propeller fan, and has a motor (not shown), a propeller 561, direction converting means 562 and a fan guard 563 as shown in FIG. 37.
  • the fan guard 563 accommodates the motor, the propeller 561 and the direction converting means 562.
  • the propeller 561 takes in outside air from a rotation axis direction of the propeller 561, and supplies air in substantially parallel with the rotation axis direction on an opposite side of the intake side.
  • the direction converting means 562 converts a flow direction of air in such a manner that air taken in along the rotation axis direction from the propeller 561 flows radially toward a direction substantially orthogonal to the rotation axis direction.
  • a member having a substantially conical shape can be used as the direction converting means 562. Therefore, the air sending means 560 and 560 can take in outside air, and allow the taken air to flow in a direction substantially parallel with a surface of a body.
  • using gap holding means for providing a gap between a lower end of the propeller 561 and the body or an undergarment directly brings air taken in from the propeller 561 into contact with the body or the undergarment. As a result, a flow direction of air can be converted.
  • this gap holding means can be regarded as one of direction converting means.
  • the same method as that described in the first embodiment can be used as that described in the first embodiment can be used.
  • each of the air sending means 560 and 560 means which can cause a parallel-to-body airstream to flow with a flow quantity of 12 liters/second is used.
  • a fan diameter of each air sending means 560 is 60 mm, and a total effective fan area of the two air sending means 560 and 560 is 45 cm 2 .
  • a power consumption of the two air sending means 560 and 560 is approximately 2.5 W.
  • the power supplying means 61 supplies electric power to the fan controlling means 152 and the air sending means 560 and 560.
  • the fan controlling means 152 controls a flow quantity of air generated by the air sending means 560 and 560.
  • the non-illustrated flow quantity adjusting means adjusts a flow quantity of air generated by the air sending means 560 and 560.
  • a volume is used, for example.
  • Each pressure-proof spacer 153 is disposed between respective electrical components such as air sending means 560 and 560, fan controlling means 152, power supplying means 61 and others.
  • the pressure-proof spacer 153 assures a space which allows circulation of air between the air-conditioning belt 150 and the body, and its structure is the same as that of the pressure-proof spacer 80 shown in FIG. 19.
  • the Velcro tape 154a is attached at one end portion of the base member 151 on its rear surface in a longitudinal direction thereof, and the Velcro tape 154b is attached at the other end portion of base member 151 on its front surface in the longitudinal direction.
  • the Velcro tape 154a is for a surface A
  • the Velcro tape for a surface B which is attached on the former tape is the Velcro tape 154b. Therefore, when the air-conditioning belt 150 is put around a waist, attaching the Velcro tape 154a and the Velcro tape 154b on each other can prevent the air-conditioning belt 150 from falling from the waist.
  • the Velcro tapes 154a and 154b are belt holding means for adjusting a length of the air-conditioning belt 150 and attaching the air-conditioning belt 150 around the waist. It is to be noted that the plurality of pressure-proof spacers 153 are attached on the base member 151, and hence a space can be assured between the air-conditioning belt 150 and the body even if the air-conditioning belt 150 is fastened tightly.
  • the upper clothing material portion 260 and the lower clothing material portion 270 are first attached to the air-conditioning belt 150. Then, a wearer puts arms through sleeve parts of the upper clothing material portion 260. Additionally, the front part of the upper clothing material portion 260 is closed by doing up the fastener of the upper clothing material portion 260, and the front part of the lower clothing material portion 270 is closed by doing up the fastener of the lower clothing material portion 270. At last, both ends of the air-conditioning belt 150 are attached by using the Velcro tapes 154a and 154b. In this manner, the air-conditioning garment 16 is put on. It is to be noted that a hem portion of the lower clothing material portion 270 is tucked in pants or the like in order to prevent air from leaking to the outside from the hem portion of the lower clothing material portion 270 in this example.
  • the fan controlling means 152 supplies electric power to the air sending means 560 and 560, and the air sending means 560 and 560 are driven.
  • a parallel-to-body airstream is generated from the air-conditioning belt 150, and the generated parallel-to-body airstream flows through a space between the upper and lower clothing material portions 260 and 270 and the body and is discharged to the outside from the air circulating portions 40, 40 and 40.
  • an air-conditioning capability of the air-conditioning garment 16 is approximately 400 W.
  • the upper clothing material portion and the lower clothing material portion one having any shape can be used as long as it has a shape which can cause the parallel-to-body airstream to flow between the upper and lower clothing material portions and the body or the undergarment.
  • a method of holding the air-conditioning belt is not restricted to the Velcro tapes, and various methods such as a regular belt buckle can be used.
  • opening/closing means for opening/closing the front part of each of the upper clothing material portion and the lower clothing material portion is not restricted to the fastener, and any method can be used as long as it is a method which can assuredly perform coupling with less air leak.
  • the air-conditioning garments for various intended purposes in each of the first to 16th embodiments.
  • the air-conditioning garment according to the present invention is not restricted to these air-conditioning garments, and it may be obtained by rationally combining the specifications of the foregoing embodiments.
  • flow path setting means for forcibly setting a path through which air flows in a space between air guiding means and a body or an undergarment may be provided on an inner surface of the air guiding means.
  • a member having a light weight such as a sponge can be used as the flow path setting means.
  • air agitating means for forcibly disturbing a flow of air in the space between the air guiding means and the body or the undergarment may be provided at some positions on an inner surface of the air guiding means.
  • a member having a light weight such as a sponge can be used as the air agitating means.
  • the intake mode is adopted as an air sending mode of the air sending means and a parallel-to-body airstream has a large flow quantity and a high wind pressure
  • the air guiding means having such a shape since air flows as a laminar air flow in the vicinity of the air guiding means in a space between the air guiding means and the body or the undergarment, wasteful air which does not contribute to vaporization of sweat much is increased.
  • the air-conditioning capability of the air-conditioning garment depends on a vaporization contributing ratio of air.
  • the vaporization contributing ratio of air varies depending on a shape of the clothing material portion, presence/absence of the air agitating means and others.
  • air having a flow quantity which falls within a range which is approximately 80 % to approximately 150 % of a flow quantity of air shown in these drawings must be allowed to flow in the space between the clothing material portion and the body or the undergarment.
  • FIG. 38 is a view schematically showing an air flow path reaching the air circulating portions from the air sending means through the space between the air guiding means and the body or the undergarment (an air circulating space).
  • a consideration will be given as to a case where outside air flows into the air circulating space from the air sending means and flows to the outside from air outflow portions.
  • the path shown in FIG. 38 represents a path through which air actually flows when a wearer turns on a switch of the air sending means.
  • reference character S1 denotes a total effective fan area
  • reference character S2 denotes a total effective cross-sectional area of the air circulating space at a given position in the air circulating space
  • reference character S3 denotes a total effective cross-sectional area of the air circulating portions.
  • the total effective fan area S1 is obtained by summing up areas of propeller portions of the respective air sending means, and an area of a central part of the air sending means where no propeller is constituted is not included in the total effective fan area S1.
  • the total effective cross-sectional area S3 of the air circulating portions is an area obtained by projecting an area of each air circulating portion on a flat surface vertical to a flow direction of air transmitted through the air circulating portion.
  • the air circulating portion which is formed by using such a cloth having high air permeability as described in the fifth embodiment is also added to calculation of the total effective cross-sectional area S3 of the air circulating portions.
  • the total effective cross-sectional area S2 of the air circulating space is increased as distanced from the air sending means, and it is reduced as getting closer to the air circulating portion.
  • the total effective cross-sectional area S3 of the air circulating portions is usually larger than the total effective fan area S1. That is, there is a relationship of S1 ⁇ S3 ⁇ S2 between the three total effective cross-sectional areas S1, S2 and S3 except a region close to the air sending means and the air circulating portion.
  • the total effective fan area S1 is substantially equal to an area of the air sending means which is seemingly exposed, it is not preferable to greatly increase the total effective fan area S1 in order to reduce an uncomfortable feeling about the appearance of the air-conditioning garment. Moreover, if the total effective cross-sectional area S3 of the air circulating portions is increased, many air circulating portions must be provided to the air guiding means. However, when this configuration is adopted, an average distance by which a parallel-to-body airstream flows in the air circulating space is reduced, thereby lowering a vaporization contributing ratio of air.
  • the total effective fan area S1 is small as shown in a section of the total effective fan area in each of FIGS. 5 to 8.
  • the relationship of S1 ⁇ S3 ⁇ S2 is achieved except a region close to the air sending means and the air circulating portion. Therefore, in this case, the uncomfortable feeling about the appearance of the air-conditioning garment is small, and the total effective cross-sectional area S3 of the air circulating portions does not have to be increased. Thus, the vaporization contributing ratio of air is not lowered.
  • the total effective fan area S1 must be increased.
  • the relationship between the three total effective cross-sectional areas S1, S2 and S3 is not achieved in some cases unless the total effective cross-sectional area S3 of the air circulating portions is increased. If the total effective cross-sectional area S3 of the air circulating portions is considerably smaller than the total effective fan area S1, an air sending pressure must be greatly increased, which results in an inconvenience, e.g., a significant increase in power consumption.
  • the total effective cross-sectional area S3 of the air circulating portions is smaller than the total effective fan area S1
  • the total effective cross-sectional area S3 of the air circulating portions must be at least 0.7-fold of the total effective fan area S1.
  • a constant "5" is a quantity having a dimension
  • a product of this constant and L 1/2 has a dimension of an area.
  • the total effective cross-sectional area of the air circulating portions falls within a range of 5 ⁇ L 1/2 cm 2 to 20 ⁇ L 1/2 cm 2 .
  • a ratio of the total effective cross-sectional area of the air circulating portions with respect to the fan total effective area (the total effective cross-sectional area of the air sending means) is at least 0.7-fold.
  • a larger ratio of the air-conditioning capability of the air-conditioning garment with respect to a power consumption of the air sending means is good.
  • outside air has a temperature of 33 °C and humidity of 50 % and a flow quantity of air generated in the space between the air guiding means and the body or the undergarment is at least 5 liters/second
  • a ratio of the air-conditioning capability of the air-conditioning garment with respect to a power consumption of the air sending means is at least 50-fold. It is to be noted that this ratio is dependent on efficiency of the motor of the air sending means, a vaporization contributing ratio of air and others.
  • the air sending means means which having such air sending pressure characteristics as a maximum static pressure, i.e., a pressure at a position where a flow quantity becomes zero falls within a range of 5 ⁇ L 1/2 pascals to 50 ⁇ L 1/2 pascals.
  • constants "5" and "50" are quantities each having a dimension, and a product of each of these constants and L 1/2 has a dimension of a pressure.
  • Air permeability of the air guiding means will now be described.
  • an air sending mode of the air sending means is an intake mode and a flow quantity of air generated by the air sending means is large
  • the air guiding means in the vicinity of the air sending means expands due to a pressure difference between an external pressure and a pressure in the air guiding means, and a so-called "air reservoir” is formed in the vicinity of the air guiding means.
  • a flow quantity of air leaking from the air guiding means becomes largest at a part where this "air reservoir" is formed (an air reservoir portion).
  • the pressure difference at this air reservoir portion can be reduced in accordance with a design of the air-conditioning garment, e.g., increasing a total effective cross-sectional area of the air circulating portions. Additionally, in order to reduce a power consumption and noise of the air sending means to decrease a burden on the air sending means, the pressure difference at this air reservoir portion must be reduced. As a result of an experiment conducted by the present inventor, assuming that a flow quantity of air flowing through the space between the air guiding means and the body or the undergarment is L liters/second, it was confirmed that the burden imposed on the air sending means can be reduced if the pressure difference at the air reservoir portion is approximately 0.5 ⁇ L pascals.
  • a constant "0.5" is a quantity having a dimension
  • a product of this constant and L has a dimension of a pressure.
  • a flow quantity of air caused to flow in the air-conditioning garment is 10 liters/second which is a typical value and an area of the air guiding means forming the air reservoir portion is 300 cm 2
  • a ratio of a flow quantity of air leaking in the air reservoir portion with respect to a flow quantity of air which is 10 liters/second is 7.5 %. It is to be noted that the same concept applies to the case where the air sending mode of the air sending means is a discharge mode.
  • the power supplying means does not have to be necessarily arranged on the integrated belt depending on an intended use of the air-conditioning garment, and the power supplying means may be attached to, e.g., a belt of pants. It is to be noted that this point can be likewise applied to other air-conditioning garments as well as the air-conditioning garment adopting the integrated belt mode, and the power supplying means may be attached at any position.
  • the air-conditioning garment it is desirable to prepare many clothing material portions excluding electrical components and prepare only one set of the electrical component.
  • this electrical component is attached to the clothing material portion which is actually put on, it is possible to enjoy air-conditioning garments having different colors, patterns, shapes and others everyday.
  • the air-conditioning garment according to the present invention means which can generate air flowing with a flow quantity of at least 0.01 liter/second per kg of a weight of a wearer is used as the air sending means. Therefore, the air-conditioning garment according to the present invention can rapidly vaporize sweat generated from a body, and expand a range in which a physiological cooler function originally included in a human body is effectively exercised.
  • a garment for a light duty e.g., a garment for a light duty, a garment for a medium duty, a garment for work in the rain, a garment for a line operation, a garment for office use, a garment for outdoor, a garment for deodorization, a garment for children, a garment for a heavy duty and others.

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Environmental & Geological Engineering (AREA)
  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Professional, Industrial, Or Sporting Protective Garments (AREA)
EP03786314A 2003-12-25 2003-12-25 Vetement ventile Withdrawn EP1698242A4 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/JP2003/016741 WO2005063065A1 (fr) 2003-12-25 2003-12-25 Vetement ventile

Publications (2)

Publication Number Publication Date
EP1698242A1 true EP1698242A1 (fr) 2006-09-06
EP1698242A4 EP1698242A4 (fr) 2008-06-18

Family

ID=34717661

Family Applications (1)

Application Number Title Priority Date Filing Date
EP03786314A Withdrawn EP1698242A4 (fr) 2003-12-25 2003-12-25 Vetement ventile

Country Status (7)

Country Link
US (1) US20070271939A1 (fr)
EP (1) EP1698242A4 (fr)
JP (1) JPWO2005063065A1 (fr)
CN (1) CN1886071A (fr)
AU (1) AU2003296118A1 (fr)
TW (1) TWI290026B (fr)
WO (1) WO2005063065A1 (fr)

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008046787A1 (fr) * 2006-10-17 2008-04-24 Hexonia Gmbh Dispositif de ventilation actif portatif
WO2008074440A2 (fr) * 2006-12-20 2008-06-26 Entrak Energie- U. Antriebstechnik Gmbh & Co. Kg Vêtement pour climatisation personnelle
WO2022146599A1 (fr) * 2020-12-30 2022-07-07 Nike Innovate C.V. Ventilation de vêtement pouvant être commandée
EP4035549A4 (fr) * 2019-09-26 2023-09-13 Toray Industries, Inc. Vêtement
EP4035547A4 (fr) * 2019-09-26 2023-09-27 Toray Industries, Inc. Vêtement
US11896064B2 (en) 2020-12-30 2024-02-13 Nike, Inc. Interface for electroadhesive system and textile
US11980237B2 (en) 2020-12-30 2024-05-14 Nike, Inc. Minimizing bulk charge in an electroadhesive actuator
US12102141B2 (en) 2022-02-11 2024-10-01 Nike, Inc. Apparel with controllable displacement system

Families Citing this family (70)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7871429B2 (en) * 2005-10-20 2011-01-18 Arizant Healthcare Inc. Multifunction warming device with provision for being secured
EP1930280A1 (fr) * 2006-12-07 2008-06-11 Inventio Ag Dispositif de freinage et rail de guidage d'un ascenseur avec surface de freinage trapézoïdale
US20090132013A1 (en) * 2007-09-21 2009-05-21 Michael Amalfi Cooling Medical Device
US8281609B1 (en) 2008-03-14 2012-10-09 Rothschild Jesse B Man portable micro-climate
FR2937224B1 (fr) * 2008-10-16 2010-11-05 Esquad Article vestimentaire tel qu'un blouson ou un pantalon
US8505322B2 (en) * 2009-03-25 2013-08-13 Pax Scientific, Inc. Battery cooling
US20110048048A1 (en) * 2009-03-25 2011-03-03 Thomas Gielda Personal Cooling System
AU2010229821A1 (en) * 2009-03-25 2011-11-17 Caitin, Inc. Supersonic cooling system
US8820114B2 (en) 2009-03-25 2014-09-02 Pax Scientific, Inc. Cooling of heat intensive systems
US20110048062A1 (en) * 2009-03-25 2011-03-03 Thomas Gielda Portable Cooling Unit
US20110030390A1 (en) * 2009-04-02 2011-02-10 Serguei Charamko Vortex Tube
US20110005236A1 (en) * 2009-07-10 2011-01-13 Tong-Bou Chang Air-conditioning clothes used in car
US20110051549A1 (en) * 2009-07-25 2011-03-03 Kristian Debus Nucleation Ring for a Central Insert
US8365540B2 (en) 2009-09-04 2013-02-05 Pax Scientific, Inc. System and method for heat transfer
US20110190855A1 (en) * 2009-12-23 2011-08-04 Michael Amalfi Cooling Assembly
WO2011119338A1 (fr) * 2010-03-25 2011-09-29 Caitin, Inc. Systèmes de refroidissement utilisant un cycle de refroidissement supersonique
CN101849716A (zh) * 2010-04-20 2010-10-06 重庆大学 人体微环境控制节能空调服系统
KR100984504B1 (ko) 2010-06-23 2010-09-30 (주)한동알앤씨 냉각팬이 부착된 시원한 옷
FR2980671B1 (fr) * 2011-10-04 2014-02-28 Decathlon Sa Vetement comprenant au moins une partie de recouvrement d'une partie du corps d'un porteur
US20130178146A1 (en) * 2012-01-10 2013-07-11 Ryan C. Stockett Auto-ventilated outerwear
US8397518B1 (en) 2012-02-20 2013-03-19 Dhama Innovations PVT. Ltd. Apparel with integral heating and cooling device
US9936751B1 (en) 2013-03-14 2018-04-10 Francesco Mignone Towel/absorptive arm sleeve and means of hands free toweling
US20150033437A1 (en) * 2013-08-02 2015-02-05 Douglas D. Hampton Temperature Adjustable Air-Cooled Undergarment
JP5672642B1 (ja) * 2013-09-26 2015-02-18 株式会社セフト研究所 シート状部材のファン取付部及びそのファン取付部の作製方法
CN103542948B (zh) * 2013-10-24 2016-05-25 厦门大学 智能幼儿监护仪
US20150143613A1 (en) * 2013-11-28 2015-05-28 Hua Ling Chu Solar-powered ventilated hat with light chasing function
WO2015116581A1 (fr) 2014-01-29 2015-08-06 Innovative Sports Inc. Dispositif unitaire de chauffage de vêtement
WO2015145666A1 (fr) 2014-03-27 2015-10-01 株式会社セフト研究所 Vêtement climatisé
EP4218472A1 (fr) 2014-07-31 2023-08-02 SFT Laboratory Co., Ltd. Corps principal de vêtement climatisé et vêtement climatisé
JP5840271B1 (ja) * 2014-09-08 2016-01-06 政彦 渡部 空調服用腰ベルト
JP6374527B2 (ja) * 2014-11-04 2018-08-15 株式会社セフト研究所 空調特殊服
US9851113B2 (en) * 2014-11-06 2017-12-26 Roger Clemente Air distribution system for individual cooling
JP5970087B2 (ja) * 2015-01-06 2016-08-17 株式会社エヌ・エス・ピー 衣服
JP6621273B2 (ja) * 2015-02-23 2019-12-18 株式会社マキタ 送風装置および当該送風装置が装着される衣服
US20160270457A1 (en) * 2015-03-20 2016-09-22 Chien-Chou Chen Clothes structure with temperature falling device
JP6568707B2 (ja) * 2015-04-17 2019-08-28 シャープ株式会社 送風装置および空気流通式衣服
JP6536674B2 (ja) * 2015-04-22 2019-07-03 株式会社セフト研究所 空調服
WO2017002105A1 (fr) * 2015-07-01 2017-01-05 Entrosys Ltd. Système de conditionnement d'air personnel
CN105169579B (zh) * 2015-10-12 2018-03-23 湖南省粮油产品质量监测中心 一种散粒物料堆作业多功能劳动防护装置
WO2017154961A1 (fr) * 2016-03-09 2017-09-14 株式会社セフト研究所 Unité de montage de composant électrique pour vêtement climatisé, et vêtement climatisé
JP2017166075A (ja) * 2016-03-14 2017-09-21 前田建設工業株式会社 体温モニタリング機能を有する空調服
US10426204B2 (en) 2016-05-31 2019-10-01 Searah Products, LLC Ventilated garment
CN106136360A (zh) * 2016-07-17 2016-11-23 何志昂 夏风衣
CN106263129B (zh) * 2016-08-09 2018-10-09 芜湖启尊智能科技有限公司 一种空调服
JP6238092B1 (ja) * 2016-09-16 2017-11-29 株式会社サンエス 空冷衣料用通風器と、この空冷衣料用通風器を装着した空冷用衣料
US11219251B2 (en) 2017-02-10 2022-01-11 Sft Laboratory Co., Ltd. Clothing body for air-conditioned clothing and air-conditioned clothing
JP6159047B1 (ja) * 2017-03-29 2017-07-05 株式会社サンエス ファン取付部の作製方法
JP7031837B2 (ja) * 2017-05-12 2022-03-08 株式会社セフト研究所 空調衣服の電源装置及び空調衣服
JP7122150B2 (ja) * 2017-06-07 2022-08-19 新東工業株式会社 プッシュプル型換気装置用プッシュユニットおよびプッシュプル型換気装置
KR101842972B1 (ko) * 2017-11-10 2018-03-29 코오롱인더스트리 주식회사 배낭용 등판구조
CN107981420B (zh) * 2017-11-28 2020-06-16 广东汇星新材料科技股份有限公司 一种热敏内衣
JP6568611B2 (ja) * 2018-01-25 2019-08-28 帝人株式会社 衣服
JP6393866B1 (ja) * 2018-03-01 2018-09-19 エンレイ リン 服内環境冷却装置
JP7411948B2 (ja) * 2018-03-30 2024-01-12 公立大学法人公立諏訪東京理科大学 衣服、熱中症予防システム及び水分補給警告システム
JP6664443B2 (ja) * 2018-08-01 2020-03-13 株式会社セフト研究所 ヘルメット対応空調衣服の服本体及びヘルメット対応空調衣服
JP2020063541A (ja) * 2018-10-19 2020-04-23 株式会社サンエス 送風制御装置と、この送風制御装置を用いた冷却衣服システム
JPWO2020100757A1 (ja) 2018-11-12 2021-09-27 株式会社セフト研究所 空調衣服の服本体及び空調衣服
US20220225694A1 (en) * 2019-03-06 2022-07-21 Toray Industries, Inc. Blower unit for air conditioned garment and air conditioned garment
JP7231210B2 (ja) 2019-03-08 2023-03-01 株式会社セフト研究所 開口部調整機構、空調衣服の服本体及び空調衣服
JP6692528B1 (ja) * 2019-03-20 2020-05-13 株式会社桑和 衣服
JP7442293B2 (ja) * 2019-10-31 2024-03-04 エヌ・ティ・ティ・コミュニケーションズ株式会社 危険度判定装置、危険度判定システム、危険度判定方法及びコンピュータプログラム
JP2021070885A (ja) * 2019-10-31 2021-05-06 株式会社セフト研究所 空調衣服の服本体及び空調衣服
JP2020023779A (ja) * 2019-11-13 2020-02-13 株式会社セフト研究所 ヘルメット対応空調衣服の服本体及びヘルメット対応空調衣服
JP2021088788A (ja) * 2019-12-05 2021-06-10 株式会社エヌ・エス・ピー 衣服
JP6753032B1 (ja) * 2020-02-20 2020-09-09 株式会社クワンズ 空調服
CN111306676A (zh) * 2020-03-30 2020-06-19 同济大学 一种集中式加热降温防护装置及控制方法
WO2021235385A1 (fr) * 2020-05-19 2021-11-25 株式会社セフト研究所 Corps d'équipement de protection pour un équipement de protection et équipement de protection
GB2618273A (en) * 2021-02-09 2023-11-01 Richelsoph Marc Adaptive temperature control system for garments and methods for controlling temperature of garments
KR102618268B1 (ko) * 2021-03-17 2023-12-27 이영환 탈착 구조의 인체 보호용 환경 조절 장치
US11885428B2 (en) * 2021-05-21 2024-01-30 Toyota Motor Engineering & Manufacturing North America, Inc. Valves and methods of operating valves

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0490347A1 (fr) * 1990-12-12 1992-06-17 F.I.M.A.C. Fabbrica Italiana Macchine Aria Compressa S.p.A. Vêtement de refroidissement du type veste ou analogue
EP1142515A1 (fr) * 1999-08-26 2001-10-10 Seft Development Laboratory Co. Ltd. Literie, coussin, matelas, chaise, vetements et chaussures refroidis
EP1552759A1 (fr) * 2002-07-10 2005-07-13 Seft Development Laboratory Co. Ltd. Vetements maintenant le corps au frais

Family Cites Families (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0332486Y2 (fr) * 1987-03-12 1991-07-10
JPS6430308U (fr) * 1987-08-17 1989-02-23
JPH08232104A (ja) * 1995-02-27 1996-09-10 Kanebo Ltd 被服用温度調節装置
US5564124A (en) * 1995-04-20 1996-10-15 Bio-Medical Devices, Inc Personal body ventilation system
US6474367B1 (en) * 1998-09-21 2002-11-05 Georgia Tech Research Corp. Full-fashioned garment in a fabric and optionally having intelligence capability
JP2001040512A (ja) * 1999-07-22 2001-02-13 Seft Dev Lab Co Ltd 冷却服
JP4810719B2 (ja) * 2000-01-31 2011-11-09 東洋紡績株式会社 防護衣服用冷却システム
MXPA03004272A (es) * 2000-11-14 2004-12-03 Georgia Tech Res Inst Prenda de vestir confeccionada con tela con capacidad de inteligencia.
JP2002188831A (ja) * 2000-12-18 2002-07-05 Masazo Matsui 背中冷却装置
JP2002201507A (ja) * 2000-12-28 2002-07-19 Canon Inc 高温高湿作業用防護スーツ
WO2002067707A1 (fr) * 2001-02-23 2002-09-06 Seft Development Laboratory Co.,Ltd. Vetement de refroidissement
JP2003027312A (ja) * 2001-07-16 2003-01-29 Kawasaki Safety Service Industries Ltd 冷却防護服
JP2003111760A (ja) * 2001-10-02 2003-04-15 Matsushita Electric Ind Co Ltd 妊婦の体調管理装置及び方法並びにシステム
JP2003221709A (ja) * 2002-01-28 2003-08-08 Sg:Kk 着衣空調方法及び装置
JP2003230178A (ja) * 2002-01-31 2003-08-15 Sony Corp 提供情報取得システム、提供情報送信装置、提供情報送信方法、提供情報送信プログラム格納媒体、提供情報送信プログラム、提供情報取得端末、提供情報取得方法、提供情報取得プログラム格納媒体及び提供情報取得プログラム

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0490347A1 (fr) * 1990-12-12 1992-06-17 F.I.M.A.C. Fabbrica Italiana Macchine Aria Compressa S.p.A. Vêtement de refroidissement du type veste ou analogue
EP1142515A1 (fr) * 1999-08-26 2001-10-10 Seft Development Laboratory Co. Ltd. Literie, coussin, matelas, chaise, vetements et chaussures refroidis
EP1552759A1 (fr) * 2002-07-10 2005-07-13 Seft Development Laboratory Co. Ltd. Vetements maintenant le corps au frais

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See also references of WO2005063065A1 *

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008046787A1 (fr) * 2006-10-17 2008-04-24 Hexonia Gmbh Dispositif de ventilation actif portatif
WO2008074440A2 (fr) * 2006-12-20 2008-06-26 Entrak Energie- U. Antriebstechnik Gmbh & Co. Kg Vêtement pour climatisation personnelle
WO2008074440A3 (fr) * 2006-12-20 2008-09-12 Entrak En U Antriebstechnik Gm Vêtement pour climatisation personnelle
GB2458604A (en) * 2006-12-20 2009-09-30 Entrak En U Antriebstechnik Gm Garment for personal air-conditioning
GB2458604B (en) * 2006-12-20 2011-12-14 Entrak En U Antriebstechnik Gmbh & Co Kg Item of clothing for personal air-conditioning
US8082596B2 (en) 2006-12-20 2011-12-27 Entrak Energie-und Antriebstechnik GmbH & Co. KG Garment for personal air-conditioning
EP4035549A4 (fr) * 2019-09-26 2023-09-13 Toray Industries, Inc. Vêtement
EP4035547A4 (fr) * 2019-09-26 2023-09-27 Toray Industries, Inc. Vêtement
WO2022146599A1 (fr) * 2020-12-30 2022-07-07 Nike Innovate C.V. Ventilation de vêtement pouvant être commandée
US11896064B2 (en) 2020-12-30 2024-02-13 Nike, Inc. Interface for electroadhesive system and textile
US11980237B2 (en) 2020-12-30 2024-05-14 Nike, Inc. Minimizing bulk charge in an electroadhesive actuator
US12102141B2 (en) 2022-02-11 2024-10-01 Nike, Inc. Apparel with controllable displacement system

Also Published As

Publication number Publication date
US20070271939A1 (en) 2007-11-29
TWI290026B (en) 2007-11-21
EP1698242A4 (fr) 2008-06-18
TW200520702A (en) 2005-07-01
JPWO2005063065A1 (ja) 2007-07-19
AU2003296118A1 (en) 2005-07-21
WO2005063065A1 (fr) 2005-07-14
CN1886071A (zh) 2006-12-27

Similar Documents

Publication Publication Date Title
EP1698242A1 (fr) Vetement ventile
JP4329118B2 (ja) 冷却衣服
WO2004006699A1 (fr) Vetements maintenant le corps au frais
EP3763233B1 (fr) Vêtement
JPWO2002067708A1 (ja) 冷却衣服
WO2003103424A1 (fr) Vetements rafraichissants
JP2006307354A (ja) 空調衣服
JP3216594U (ja) 空調付衣服
WO2020090483A1 (fr) Vêtement
JP2024096336A (ja) 空調衣服の服本体及び空調衣服
CN111418911A (zh) 功能性保健内裤
JP2002309414A (ja) 冷却機能を有する衣服
WO2004017773A1 (fr) Vetements climatises
JP2021139063A (ja) 衣服
US20220225695A1 (en) Upper body travel garments with integral comfort features
CN216123865U (zh) 一种便于头部降温的空调服
CN216824537U (zh) 一种一次性连体空调防化服
CN219069524U (zh) 一种防蜂服
CN218737326U (zh) 一种具有良好防水效果的室外防护服
CN219396356U (zh) 一种膝部固定套
CN212911724U (zh) 一种短袖上衣
CN213604529U (zh) 一种可拆卸温控衣
CN214677646U (zh) 建设工程用可穿戴式散热装置
CN218073607U (zh) 一种新型空调服
CN215422921U (zh) 一种防油且透气的劳保服

Legal Events

Date Code Title Description
PUAI Public reference made under article 153(3) epc to a published international application that has entered the european phase

Free format text: ORIGINAL CODE: 0009012

17P Request for examination filed

Effective date: 20060621

AK Designated contracting states

Kind code of ref document: A1

Designated state(s): AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IT LI LU MC NL PT RO SE SI SK TR

DAX Request for extension of the european patent (deleted)
A4 Supplementary search report drawn up and despatched

Effective date: 20080520

17Q First examination report despatched

Effective date: 20090818

STAA Information on the status of an ep patent application or granted ep patent

Free format text: STATUS: THE APPLICATION IS DEEMED TO BE WITHDRAWN

18D Application deemed to be withdrawn

Effective date: 20091229