Electric component wearing unit for air-conditioning clothes and air-conditioning clothes
阅读说明:本技术 空调衣服用电气部件佩戴单元及空调衣服 (Electric component wearing unit for air-conditioning clothes and air-conditioning clothes ) 是由 市谷弘司 冲洋平 张崇峙 于 2017-03-08 设计创作,主要内容包括:一种空调衣服用电气部件佩戴单元(100),其与具有风扇用开口孔(53)的衣服主体组合使用并被佩戴于身体,其中,具备:风扇(1),其用于将空气从外部引入到衣服主体内;佩戴机构(带状物主体(21)),其用于将风扇(1)佩戴于身体;以及风扇安装机构(15),其用于将风扇(1)安装于佩戴机构,在风扇(1)形成有风扇侧连结部(16),上述风扇侧连结部用于与风扇用开口孔(53)连结。(An air-conditioning clothing electrical component wearing unit (100) that is used in combination with a clothing main body having an opening hole (53) for a fan and is worn on the body, the air-conditioning clothing electrical component wearing unit comprising: a fan (1) for introducing air from the outside into the garment body; a wearing mechanism (belt body (21)) for wearing the fan (1) on the body; and a fan mounting mechanism (15) for mounting the fan (1) to the attachment mechanism, wherein a fan-side coupling portion (16) for coupling to the fan opening hole (53) is formed in the fan (1).)
1. An electrical component wearing unit for air-conditioning clothes, which is used in combination with a sheet-like raw material having an opening hole for a fan,
the air-conditioning clothing electrical component wearing unit is provided with a fan, and a power supply unit and a power supply cable for supplying power to the fan,
the fan includes a fan body, a cover portion for housing the fan body, and a cylindrical coupling portion for coupling the fan and the fan opening hole,
the tubular coupling portion has an air introduction side and an air discharge side, the tubular coupling portion has a flange having a groove on the air introduction side,
an opening edge portion of the sheet material having the opening hole for the fan is fitted into the groove.
2. The electrical component wearing unit for air-conditioning clothing according to claim 1,
the sheet stock material is stretchable.
3. The electrical component wearing unit for air-conditioning clothing according to claim 1 or 2,
the flange has an upper flange and a lower flange, and the slot is formed between the upper flange and the lower flange.
4. The electrical component wearing unit for air-conditioning clothing according to claim 3,
the outer diameter of the upper flange is smaller than the outer diameter of the lower flange.
5. The air-conditioning clothing electrical component wearing unit according to any one of claims 1 to 4,
the air-conditioning clothing electrical component wearing unit is provided with at least a wearing mechanism for wearing the fan on the body.
6. The air-conditioning clothing electrical component wearing unit according to any one of claims 1 to 5,
the fan is provided with a movable mechanism which enables the fan to move on the wearing mechanism.
7. An air-conditioning garment is characterized in that,
the air-conditioning garment is used in combination with the electrical component wearing unit for air-conditioning garments according to any one of claims 1 to 6.
Technical Field
The present invention relates to an air-conditioning garment electrical component attachment unit for an air-conditioning garment for cooling a body, and an air-conditioning garment.
Background
In recent years, air-conditioning clothes for cooling the body have been put into practical use and are rapidly spreading. As shown in fig. 35A and 35B, the conventional air-
When the
While the air is flowing through the air flow path between the
Various measures are implemented for such conventional air-
For example, in the case of the normal air-
Patent document 1: international publication No. 2005/063065
However, the conventional air-
Further, by attaching the
Further, since the
1 when the body is rotated, the
For example, when the
3 when the propeller rotates, vibration is generated due to imbalance of blades of the propeller, etc. Further, although vibration adversely affects the life of the motor and the generation of noise, it is not easy to take measures such as absorbing noise if the motor is in a floating state.
Disclosure of Invention
The invention provides an electric component wearing unit for air-conditioning clothes and the air-conditioning clothes, which can prevent the electric components from falling off and can easily install a fan without forming a special installation hole on the clothes body of the air-conditioning clothes.
In order to achieve the above object, the invention according to
a fan for introducing air from the outside into the garment body;
a wearing mechanism for wearing the fan on a body; and
a fan mounting mechanism for mounting the fan to the attachment mechanism,
the fan is formed with a fan-side coupling portion for coupling with the fan opening hole.
The invention described in
the fan comprises a fan body and a cover part, wherein the cover part is used for accommodating the fan body,
the fan-side coupling portion is a cylindrical coupling portion formed in the cover portion.
The invention described in
an upper flange is provided on an air intake side of the cylindrical coupling portion, and a lower flange is provided on an air delivery side of the upper flange,
the opening edge of the garment body having the fan opening hole is fitted into a groove formed between the upper flange and the lower flange.
The invention described in
the wearing mechanism is a rope, a belt or a belt-shaped object formed by a combination of the rope and the belt.
The invention described in
some or all of the wearing mechanism has elasticity, or the wearing mechanism has a length adjustment mechanism.
The invention described in claim 6 is the air-conditioning clothing electrical component wearing unit according to
the clothes main body is a front-opening clothes, and is provided with an opening and closing mechanism for opening and closing the left and right forebodies,
the wearing mechanism has both ends attached to the left and right front bodies, respectively, so that the garment main body forms a part of the wearing mechanism, and the opening and closing mechanism forms a connecting mechanism of the wearing mechanism.
The invention described in
the number of the fans is two, and the two fans are connected through a power cable.
The invention according to claim 8 is the air-conditioning clothing electrical component wearing unit according to any one of
the fan mounting mechanism is detachably mounted to the attachment mechanism.
The invention according to claim 9 is the air-conditioning clothing electrical component wearing unit according to any one of
the fan mounting device is provided with a movable mechanism which enables the fan to move along the longitudinal direction of the mounting mechanism after the fan is mounted on the mounting mechanism.
The invention described in
a power supply part for supplying power to the fan and a power supply cable,
the fan, the power cable, and the power unit are connected to each other, thereby functioning as a part of the attachment mechanism.
The invention described in
a power supply unit configured to supply power to the fan; and
and a power supply unit attachment mechanism for attaching the power supply unit to the attachment mechanism.
The invention according to
the fan control device is provided with a unit part which is formed by integrating the fan and a power supply part for supplying power to the fan.
The invention described in claim 13 is the air-conditioning clothing electrical component wearing unit described in
the unit portion seals the motor and the power supply portion in a sealed container.
The invention described in
the unit section includes:
an electric component wearing plate which is worn on the back or on the chest; and
and a fan attachment mechanism that detachably fixes the fan to the electric component mounting plate.
The invention according to
the fan is provided with an air improving means for removing substances harmful to the body from the air introduced from the outside or the air after the introduction, for containing substances useful to the body in the air, or for cooling the air, in the vicinity of the air introduction port.
The invention described in
a power supply unit configured to supply power to the fan; and
a solar panel,
the power supply unit includes an electric storage mechanism for using or storing electricity generated by the solar panel.
The invention described in
a power supply unit configured to supply power to the fan;
a communication mechanism that communicates with an external device; and
and a control unit that controls the communication unit and controls on/off of the power supply unit and/or a rotation speed of the fan based on an instruction received from the external device.
The invention described in claim 18 is the air-conditioning clothing electrical component wearing unit described in any one of
a power supply unit configured to supply power to the fan;
a measurement unit that measures important information; and
and a control means for controlling on/off of the power supply unit and/or a rotation speed of the fan based on a measurement result of the measurement means.
The invention described in claim 19 is the air-conditioning clothing electrical component attachment unit described in claim 18, wherein,
comprises a communication means for communicating with an external device,
the control means controls the communication means and transmits the measurement result of the measurement means to an external device.
The invention described in claim 20 is an air-conditioning garment, including:
the air-conditioning garment electrical component wearing unit according to any one of
a garment main body which is formed of a sheet-like material having the opening hole for the fan and covers at least a part of the body,
the cylindrical connection portion of the fan is fitted into the fan opening hole.
The invention according to
the periphery of the opening edge portion of the garment body, in which the fan opening hole is formed, is stretchable.
The invention according to
the fan is disposed on the front part of the garment body, and a spacer is disposed between the back part of the garment body and the body.
The invention described in claim 23 is an air-conditioning garment, including:
the air-conditioning garment electrical component wearing unit according to any one of
a garment main body which is formed of a sheet-like material having the fan opening hole and covers at least a part of a body;
the air-conditioning clothing electrical component wearing unit is worn on the body by attaching both ends of the wearing mechanism constituting the air-conditioning clothing electrical component wearing unit to the vicinity of the opening/closing mechanism of the corresponding clothing main body and switching the opening/closing mechanism from the open state to the closed state.
The invention according to
the clothes main body is made of plastic film.
The invention according to
the clothes main body is provided with an air discharge part,
the air discharge unit includes a discharge resistance adjustment mechanism for adjusting a discharge resistance of the discharged air.
According to the present invention, there are provided an electric component attachment unit for air-conditioning clothing and air-conditioning clothing capable of preventing an electric component from falling off and easily attaching a fan without forming a special attachment hole in a clothing body of the air-conditioning clothing.
Drawings
Fig. 1 is a schematic side view showing an example of a fan of an electrical component mounting unit for air-conditioning clothing according to a first embodiment.
Fig. 2A is a schematic front view of the electrical component mounting tape.
Fig. 2B is a schematic front view of an electrical component mounting belt (electrical component mounting unit for air-conditioning clothes) on which a fan and a power supply unit are mounted.
Fig. 2C is a schematic side view of an electrical component mounting belt (electrical component mounting unit for air-conditioning clothes) on which a fan and a power supply unit are mounted.
Fig. 3 is a schematic front view showing an example of a garment body using the air-conditioning garment electrical component attachment unit of the first embodiment.
Fig. 4 is a schematic side view showing a state where the fan is attached to the garment body.
Fig. 5 is a schematic front view showing a state in which the garment main body to which the air-conditioning garment electrical component attachment unit of the first embodiment is attached is worn.
Fig. 6 is a schematic side view showing another example of the fan.
Fig. 7 is a schematic side view showing another state of the air-conditioning clothing electrical component mounting unit.
Fig. 8 is a schematic side view showing another state in which the fan is attached to the garment body.
Fig. 9 is a schematic side view of a fan of the second embodiment.
Fig. 10 is a schematic front view of a power supply unit according to the second embodiment.
Fig. 11A is a schematic diagram showing a state before the terminal of the power cable is coupled to the terminal of the power unit.
Fig. 11B is a schematic diagram showing a state in which the terminal of the power cable is coupled to the terminal of the power unit.
Fig. 12 is a front view of the entire air conditioning unit of the second embodiment.
Fig. 13 is a schematic front view of the air conditioning unit when attached to the body.
Fig. 14 is a schematic view showing a fan and a fan connected by an opening hole while wearing clothes.
Fig. 15A is a schematic front view showing an example of a unit section of the third embodiment in which a fan and a power supply section are integrated.
Fig. 15B is a schematic side view showing an example of a unit section of the third embodiment in which a fan and a power supply section are integrated.
Fig. 16 is a schematic rear view showing a state where the unit section is carried on the back.
Fig. 17 is a schematic rear view showing a state where the garment main body having the unit section is worn.
Fig. 18 is a schematic cross-sectional view showing a state where the garment main body having the unit section is worn.
Fig. 19A is a schematic front view of an electric component mounting plate of a mounting portion as a modification.
Fig. 19B is a schematic side view of an electric component mounting plate of a mounting portion as a modification.
Fig. 20 is a schematic front view of the power supply unit.
Fig. 21 is a schematic side view of the fan.
Fig. 22 is a schematic side view of a unit section in which a fan having a power supply unit mounted thereon is mounted on an electrical component mounting plate.
Fig. 23 is a circuit block diagram of a unit section according to a modification of the third embodiment.
Fig. 24A is a schematic front view of a modified air-conditioning garment when worn.
Fig. 24B is a schematic rear view when the air-conditioning garment of the modification is worn.
Fig. 25A is a schematic side view of a unit section of the fourth embodiment to which an optional container for the same purpose as in the case of using a filter or a water-containing sponge is attached.
Fig. 25B is a schematic side view of a unit section to which a rain cover for sucking in outside air from a lower side where rainwater cannot enter is attached.
Fig. 25C is a schematic side view of a unit portion to which a container containing granular dry ice (coolant) or the like is attached.
Fig. 26 is a schematic sectional view of a unit section of the fourth embodiment.
FIG. 27 is a schematic front view of a hydrous sponge.
Fig. 28 is a schematic view of an electrical component mounting belt constituting the electrical component mounting unit for air-conditioning clothing according to the fifth embodiment.
Fig. 29A is a schematic side view of the fan of the fifth embodiment.
Fig. 29B is a schematic rear view of the fan of the fifth embodiment.
Fig. 29C is a schematic rear view of the fan in a state of being attached to the belt body.
Fig. 30 is a schematic front view of the air-conditioning garment in which the electrical component mounting unit for an air-conditioning garment according to the fifth embodiment is attached, showing a state in which the front is open.
Fig. 31A is a diagram showing an air-conditioning garment according to the sixth embodiment, and is a schematic front view of the garment body.
Fig. 31B is a diagram showing an air-conditioning garment according to the sixth embodiment, and is a schematic cross-sectional view of the waist of the garment body to which a fan is attached when the garment body is worn with the fan attached.
Fig. 32 is a schematic side view showing an example of the integrated fan and power cable.
Fig. 33 is an explanatory view showing another example of the electric component mounting tape.
Fig. 34A is an explanatory view showing an example of a case where a half-sleeved garment is used as a garment body of the air-conditioning garment.
Fig. 34B is an explanatory view showing an example of a case where a long-sleeved garment is used as the garment body of the air-conditioning garment.
Fig. 35A is a schematic front view showing an example of a conventional air-conditioning garment.
Fig. 35B is a schematic rear view showing an example of a conventional air-conditioning garment.
Detailed Description
(embodiment mode)
Hereinafter, embodiments for carrying out the invention according to the present application will be described with reference to the drawings. However, the scope of the invention is not limited to the examples of the figures.
(first embodiment)
The case where the air-conditioning clothes using the air-conditioning clothes electric component wearing unit of the present invention is used for a rental purpose in a sporting facility or the like without a cooling device will be described. The present invention is described in detail with reference to the accompanying drawings.
First, the fan will be explained.
Fig. 1 is a schematic side view of a
Fan main body FN11 includes, for example, a propeller fan and a motor for rotating the propeller fan, and fan main body FN11 is housed inside
The
Further, a
Next, the electric
Fig. 2A is a schematic front view of the electrical
Fig. 2B and 2C are a schematic front view and a schematic side view of the electrical component mounting belt 2 (electrical
Next, the disposable garment body will be explained.
Here, a case will be described in which the garment main body is made based on an existing 45-liter polyethylene bag (hereinafter referred to as a plastic bag).
For example, a 45L plastic bag is used, which is a transparent plastic bag having a size of 65cm in width, 80cm in length, and 0.02mm in thickness.
Fig. 3 is a schematic front view of the
1 cutting the
2 the lower side portions of the left and right abdominal portions (at positions 15cm from the center, respectively) are cut into a circular shape with a diameter slightly smaller than the diameter of the
3A hem threading mechanism (Japanese bottom section コード pass through し)54 is formed at the hem portion.
Here, differences between the mounting hole of the fan of the conventional air-conditioning garment and the
In contrast, in the present embodiment, the
Next, the preparation for rental will be described.
An electric component mounting belt-like article 2 (electric
Next, the procedure used by the user will be described.
First, the electrical component attachment belt 2 (the electrical
Further, the
Fig. 4 is an explanatory diagram for explaining a relationship between the
As shown in fig. 4, after the edge of the
Finally, the wire passing through the lower swing
Fig. 5 is a schematic front view showing a state in which the belt-like article 2 (the air-conditioning clothing electrical component wearing unit 100) and the clothing
When the wire material passed through the
The cooling effect by the circulation of air and the evaporation of sweat due to the circulation of air is the same as that of the conventional air-conditioning clothes.
Further, since the garment
In addition, although the above-described manufacturing method is described based on the conventional 45L plastic bag, it is needless to say that it is reasonable to consider a method of manufacturing the clothes
In the air-conditioning garment of the first embodiment, since the electric
1 since the weight of the
2 since the reinforcement of the
(modification example)
The air-conditioning clothing electrical
Fig. 6 is a schematic side view of the fan 1a used in the present modification.
In the present modification, as shown in fig. 6, the fan main body (not shown) is housed inside the cover portion in the
The
The
Fig. 7 is a schematic side view of the assembled electrical
Next, an assembling method of the electrical
Fig. 7 is a schematic side view of the assembled electrical
The flat through hole of the fan 1a as the
Next, the
Next, a case will be described in which the belt-
The 1
2, an elastic ring, specifically, a rubber ring (
Fig. 8 is an explanatory diagram for explaining a relationship between the
As shown in fig. 8, the edge of the
Further, since the
Since the electric component attachment belt-
Then, the
The method of inserting the edge of the
(second embodiment)
In the first embodiment and its modified examples, the electric
Fig. 9 is a schematic side view of the fan, fig. 10 is a schematic front view of the power supply unit, fig. 11A is a schematic diagram showing a state before the terminals of the power supply cable are coupled to the terminals of the power supply unit, and fig. 11B is a schematic diagram showing a state after the terminals of the power supply cable are coupled to the terminals of the power supply unit.
As shown in fig. 11A, two fitting springs k12 having fitting walls k13 are formed above and below a terminal (plug) k11 of the
Fig. 12 is a front view of the whole of the air conditioning unit. As shown in fig. 12, the right and left
Fig. 13 is a schematic front view of the air conditioning unit when worn on the body. As shown in fig. 13, the air conditioning unit is worn on the trunk by hanging the neck strap k4 around the neck and coupling the hook k31 of the waist belt k3 provided with the regulator k32 to the hook k5 of the
As shown in fig. 13, the
Fig. 14 is a schematic view showing the
(third embodiment)
In the third embodiment, a case where the large air-conditioning clothing electrical component attachment unit 100b having a large air volume and a long continuous use time of one large fan is used will be described.
Fig. 15A and 15B are schematic front and side views of the
The
A large fan (not shown) and a large-capacity power supply unit 71 are housed inside the cover unit. The cover portion has an
A
Further, unit fixing means 76 (e.g., hooks formed at four corners) are formed on the side surface of the cover portion and on the lower side than the center, and four
The fan in the
As will be described later, the
Fig. 16 is a schematic rear view of the
The
Next, the procedure of use will be described.
First, the
The operation of the air volume adjustment may be performed by using a regulator (not shown) connected from the
In the third embodiment, the
In the third embodiment, the motor and the power supply unit 71 may be sealed in a sealed container, and the sealing properties of the bearing and the rotating shaft for mounting the propeller to the motor may be improved, thereby achieving an explosion-proof specification that can be used even in a flammable atmosphere.
The
The
In addition, the use method does not necessarily connect the
(modification example)
FIG. 19A is a schematic front view of an electric
fig. 19B is a schematic side view thereof. As shown in fig. 19, a vital sensor (not shown) for measuring body temperature and pulse is attached to the bottom surface of the electric
Fig. 20 is a schematic front view of the power supply unit. Fig. 21 is a schematic side view of the fan. Fig. 22 is a schematic side view of a unit portion in which a fan having a power supply unit mounted thereon is mounted on the electrical
In the present modification, as shown in fig. 20, four
Next, the electrical connection of the cell portions will be explained. Two electrodes (not shown) are disposed in the cylindrical portion of the fan 1c at the portion where the
When the fan 1c having the
Fig. 23 is a circuit block diagram. On the circuit board 2b1, there are disposed: a voltage conversion circuit 2b11 that converts the voltage of the
Next, an example of a procedure for wearing the air-conditioning garment according to the present modification will be described. Fig. 24A is a schematic front view and fig. 24B is a schematic rear view of the air-conditioning garment according to the modification. Further, the
1 the fan 1c is inserted into the
2 the
3 the fan 1c with the
4 bear the unit part.
5 wearing the clothes through the arms and zipping the zipper.
Next, a method of use will be described. Further, software associated with the smartphone, which is an external communication device, is installed.
When the air-conditioning garment is activated by the smartphone, data output from the temperature/humidity sensor TS and the life sensor BS is transmitted to the smartphone, air-blowing amount data calculated based on the data is transmitted to the unit section, and power is applied to the motor FN11b of the fan 1c by the voltage conversion circuit 2b11 under the control of the control circuit 2b12 based on the received air-blowing amount data.
In the present modification, the case where a conventional hand guard is attached to the air intake portion of the fan has been described, but various optional accessories such as those shown in fig. 25A, 25B, and 25C may be attached instead of the hand guard.
Fig. 25A shows an optional container OP1 for the same purpose as in the case of using a filter or a water-containing sponge described in the fourth embodiment described later.
Fig. 25B is a rain cover OP2 for sucking outside air from the lower side so as not to let rainwater in.
Fig. 25C shows a container OP3 in which granular dry ice (coolant) or the like is put.
In this way, the hand guard can be changed from a simple hand guard to a container or the like according to the purpose of use, and the hand guard is carried on the back, so that the hand guard hardly becomes a burden even if the weight of the container, the contents thereof, and the like is considerable.
(fourth embodiment)
Fig. 26 is a schematic sectional view of the
The air-conditioning garment of the present embodiment uses the
(modification example)
The air-conditioning clothes according to the present modification example are air-conditioning clothes that are used in a dry environment where the outside air temperature is very high, such that the air-conditioning clothes cannot be used only by the heat of vaporization of sweat. This modification is a special air-conditioning garment in which air introduced into the air-conditioning garment is cooled by the heat of vaporization of water.
Fig. 27 is a schematic front view of a
This modification is different from the fourth embodiment in that a water-containing
The method of cooling air using water and the heat of vaporization of water is not limited to the method using water-containing sponge, and may be, for example, a method in which a mist generator is disposed in a functional space and mist is introduced into air-conditioning clothes. In this case, the container for supplying water may be provided in the functional space or may be provided outside.
In the third and fourth embodiments and the modifications thereof, the case where dust is removed by a filter, the case where cooling is performed by the heat of vaporization of water, and the like have been described, but if necessary, a specific substance or a harmful substance may be removed by various filters or the like, or a deodorant or perfume may be added to a sponge or the like, or a substance useful for the body may be introduced into clothes by various other methods.
As described in the third and fourth embodiments and the modifications thereof, the air improving mechanism for improving the air introduced into the clothes can use various methods according to the purpose (not introducing rainwater is also one of the air improvement). The air improving mechanism is not limited to the method of improving the air taken in by the fan by being disposed outside the fan as in the embodiment, and a method of improving the air taken in by the fan may be used. Therefore, the position where the air improving mechanism is disposed is the periphery of the air introduction port of the fan.
As described above, by fixing the electrical component to the wearing portion, the electrical component can be completely prevented from falling. Further, it is possible to realize an increase in size and functionalization that are difficult for the conventional air-conditioning clothes in which a fan is attached to the clothes. Further, since the unit portion is in close contact with the body, sensors for physical condition management (body surface temperature, pulse, etc.) can be easily attached. Then, by transmitting the data to a work manager or the like, a person with abnormal physical condition can be detected.
(fifth embodiment)
Next, an air conditioning clothing electrical component wearing unit (air conditioning unit) of the fifth embodiment will be described. The air-conditioning clothes electrical component wearing unit of the embodiment comprises: an electrical component mounting belt (a wearing part) 2 described later, and a
Fig. 28 is a schematic view of the electrical
The electric
Next, the
Fig. 29A is a schematic side view of a
As shown in fig. 29A to 29C, the
The
Next, a method of using the air-conditioning garment to which the air-conditioning garment electrical component attachment unit of the present embodiment is attached will be described. Fig. 30 is a schematic front view of the air-conditioning garment in a state in which the air-conditioning garment electrical component attachment unit according to the present embodiment is attached and in a state in which the front body is open.
First, the two
Next, the
Subsequently, as shown in fig. 29C and 30, the rope is attached to the
Next, the
(sixth embodiment)
Next, an air-conditioning garment according to a sixth embodiment will be described.
Fig. 31A is a schematic front view of the
In the fifth embodiment, the fan attachment means 15 is provided as attachment fittings on the left and right sides of the
With such a configuration, as shown in fig. 31B, when the
Further, since the column of the air sending part of the
As described above, according to the air-conditioning clothing electrical component attachment unit of the first, second, fifth, and sixth embodiments, even when the air-conditioning clothing is used and the inside of the clothing is a positive pressure, the fan is attached to the electrical component attachment belt worn on the user, and therefore, the portion of the fan does not swell. Therefore, various problems (for example, an operation of preventing the air-conditioning clothes from being worn) caused by the swelling of the fan can be avoided.
Further, the conventional air-conditioning clothes have the following advantages that the fan is attached to the clothes main body in a suspended state, and the air-conditioning clothes using the air-conditioning clothes electrical component attachment unit according to each embodiment have the fan in close contact with the body.
1, even if an external force is applied to the fan, since the fan device is in close contact with the body, the fan device does not move greatly, and thus, a large impact force is not applied to the internal components of the fan, and inexpensive components having a small impact resistance can be used. Further, since the external force applied to the fan is absorbed by the body, inexpensive materials can be used for the structural members constituting the fan.
2 obtaining the air-conditioning clothing electrical component wearing unit enables individual clothing to be easily processed into a clothing body for air-conditioning clothing, and therefore, the popularization of air-conditioning clothing can be accelerated and the environment-friendly society can be promoted.
In addition, although the case where one string having no elasticity is used as the string-shaped object main body in the fifth embodiment and one rubber string is used in the sixth embodiment is described, the string-shaped object used in the fifth and sixth embodiments may be a string-shaped object in which a part or the whole of the string-shaped object is composed of one or a plurality of strings, one or a plurality of bands, or a combination of one or a plurality of strings and one or a plurality of bands. In particular, in the sixth embodiment, various combinations can be used, such as providing the threading mechanism in the upper and lower vicinity of the fan opening hole and providing two strings in the vicinity of the fan.
In addition, a part or the whole of the string is made elastic by using a rubber string or the like, and thus a wire locking member for adjusting the length of the string can be omitted.
Further, both ends of the belt-like object main body may be attached to the vicinity of the slide fastener without using the connection terminals. In addition, in the case of attaching the band-like object, instead of sewing, hooks or the like may be attached to both ends of the band-like object main body, and an engaging mechanism for engaging with the hooks or the like may be provided in the vicinity of the slide fastener to detachably attach the band-like object main body to the clothing main body. The attachment position is not limited to the vicinity of the zipper, and may be the front side of the garment body. In this case, the portion from one point to the other point where the end of the string is attached can be regarded as a part of the belt-like object main body including the slide fastener (opening/closing mechanism). In this way, the fan is worn by putting on the clothes with both ends of the string attached to the front side of the clothes main body and zipping the zipper.
In the first, fifth, and sixth embodiments, the fan can be attached to the fan opening hole from the inside of the garment, and therefore, as shown in fig. 32, a directly connected and integrated component can be used for the fan and the
In the third and fourth embodiments, the air-conditioning clothing electrical component attachment unit is integrated with all the electrical components as a unit section, and in the first, second, fifth, and sixth embodiments, the fan is attached to the belt-like body as the attachment means, and therefore, the fan does not fall off even when the fan falls off from the clothing body. Further, since the fan is supported by the belt body, the weight of the fan can be suppressed from being applied to the garment body, and the air-conditioning garment can be made to have a good wearing feeling.
Further, according to the air-conditioning clothing electrical component attachment unit of the fifth and sixth embodiments, the fan is slidably attached to the belt-like object, and therefore, even when there is a variation in the arrangement of the fan opening holes, the fan can be easily attached to the fan opening hole by sliding the position of the fan. In the fifth embodiment, the length of the electric component mounting belt can be adjusted by providing the wire lock, and in the sixth embodiment, the fan can be brought into close contact with the body with a reasonable pressure because the belt has elasticity.
In addition, according to the air-conditioning clothing electrical component wearing unit of the first to fifth embodiments, by separating the clothing main body mainly made of the sheet material and the electrical component made of a material completely different from the sheet material, it is almost unnecessary to consider the relationship between both. Therefore, the clothing main body can be designed and manufactured reasonably as a clothing product and the unitized electric components can be designed and manufactured as an electric product, thereby achieving cost reduction, performance improvement and convenience improvement.
In the first and second embodiments, the case where the electric component attachment band is wrapped around the abdomen and worn on the body has been described, but the electric component attachment band may be attached to the body, for example, by being worn from the shoulder or the neck.
In the embodiments, the case of the upper body wearing the jacket has been described with respect to the garment body, but the lower body may be covered as in a coverall or a winter coat. In this case, the air leakage prevention mechanism of the skirt is not essential.
As a specific power source used for the power source unit, a primary battery, a secondary battery, and a fuel cell can be used. In the case of using a solar cell (solar panel), the solar panel itself cannot be housed in the power supply unit, but a mechanism for using or storing electricity generated by the solar panel is the power supply unit.
The shape of the fan is not limited to a circular shape. For example, the fan is not limited to a so-called propeller fan, and may be a multi-blade fan (radiator fan). Further, the air introducing portion is not limited to be opened on the upper surface according to the shape of the fan and the like.
In the embodiments, the case where two fans are used on the left and right sides and the case where one large fan is used have been described, but the number of fans may be two or more.
The power supply unit and the like may be provided with a communication means for operating the on/off of the fan and/or the rotation speed of the fan based on an instruction received from an external device, for example, a program of a smartphone.
Further, the fan control device may include a measurement unit that measures vital signs such as body temperature and pulse, and control the on/off of the fan and/or the rotation speed of the fan based on the measurement result of the measurement unit. Further, the communication means may be controlled to transmit the measurement result of the measurement means to the outside.
Further, the measurement result of the measurement means may be transmitted to a smartphone, which is an external device, and the on/off of the fan and/or the rotation speed of the fan may be operated based on an instruction based on the measurement result received from the application of the smartphone.
In the fifth and sixth embodiments, the case where the
In the fifth embodiment and the above-described embodiments, the case where the
The position of the
In the fifth and sixth embodiments, the case where the electric component mounted on the electric component mounting belt-
In each embodiment, a mechanism for adjusting air discharge resistance may be provided in the air discharge portion. For example, in the case of using a half-sleeve as the garment body, in order to optimize the ratio of air discharge based on the relationship between the arm thickness and the sleeve, the opening degree of the half-sleeve may be adjusted by a button (for example, a snap button) B disposed at the cuff as shown in fig. 34A. Further, as shown in fig. 34B, a rectangular region R near the rear collar may be provided with a slack or a spacer to secure the air discharge amount from the rear collar. The mechanism for adjusting the air discharge resistance of each air discharge unit is not limited to the above, and various general methods can be used.
The present invention is not limited to the embodiments, and various improvements and design changes can be made without departing from the scope of the present invention.
The present invention can be suitably used in the field of manufacturing air-conditioning clothes.
Description of the figures
100. 100a, 100b, 100c … air-conditioning clothing electrical component wearing unit; 1. 1a, 1b, 1c, 1d … fan; 10 … a body portion; 11 … air intake; 12 … a flange; 121 … upper flange; 122 … lower flange; 14 … air delivery part; 15 … fan mounting mechanism; 16 … tubular connection part (fan-side connection part); 161 … groove; 17 … installing a barrel part; 2. 2a … electric component mounting belt (mounting part); 21. 21a … belt body (wearing mechanism); 22 … a ribbon; 23 … installing an adjusting mechanism; 24 … connection terminal; 25 … wire lock (length adjustment mechanism); 3 … power supply part; 31 … power supply unit mounting mechanism; 4 … power supply cables; 5. 5a, 5c, 5d … garment body; 51 … clothing material; 52 … collar; 53 … open hole for fan; 54 … lower hem threading mechanism; 57 … space ensuring mechanism; 58 … opening and closing mechanism (zipper); 59 … threading mechanism; 6. 6a … elastic ring (connection auxiliary); 7. 7a, 7b … cell parts; 71 … a power supply section; 72 … air intake; 721 … functional space; 722 … filter; 723 … sponge for water (water containing mechanism); 73 … air delivery part; 74 … tubular coupling portion (coupling portion); 75 … flanges; 76 … cell fixing mechanism; 77 … grooves; 78 … an angled guide; 79 … belts (wearing mechanisms); 101 … air conditioning clothing; 110 … a garment body; 130 … air exhaust; 140 … fan; k1 … is inserted into the fitting part; a k11 … plug; k12 … fitting spring; k13 … engaging the wall; k2 … inserted and embedded part; a k21 … socket; k22 … engaging the wall; k3 … waistband; k4 … neck strap; a k5 … hook; 2b … electric parts wearing plate; 2b1 … circuit substrate; 2b2 … fan mounting mechanism; 2b3 … hook; an FN11 … fan body; CV11 … cover.