JP4385870B2 - Air conditioning method and sleep capsule using the same - Google Patents

Description

  The present invention relates to an air conditioning method and a sleep capsule using the same, and particularly relates to air conditioning measures in a sleeping room.

  Conventionally, sleeping capsules are known that use an air conditioning method in which a conditioned air blow-out port and a suction port are provided in a sealed use space to air-condition the use space (see, for example, Patent Document 1). ).

  The sleeping capsule of Patent Document 1 includes a covering member that covers the top of the capsule body and forms a sleeping room that is a use space. And the said sleep capsule is provided with the head side inflow / outflow part for air conditioning the head side of a sleep room, and the leg side inflow / outflow part for air conditioning the foot part side of a sleep room. Each of the head-side inflow / outflow portion and the leg-side inflow / outflow portion is provided with an air outlet for supplying conditioned air to the sleeping room and an inlet for sucking in the room air in the sleeping room. Each said blower outlet and suction inlet are comprised so that the airflow which produces a short circuit between each other may be formed.

In the sleep capsule, air conditioning is controlled such that the temperature of the conditioned air blown from the outlet of the leg inflow / outflow portion is higher than the temperature of the conditioned air blown out of the outlet of the head inflow / outflow portion. That is, in the sleeping room, a temperature distribution of “head cold foot heat”, which is considered to be suitable for the thermophysiological comfort of the human body, is lowest on the head side and gradually increases toward the foot side. This improves the comfort of the sleeping person.
JP 2003-232537 A

  By the way, depending on the form of the bed, there may be provided an air inflow / outflow part that blows out conditioned air upward and sucks indoor air downward. Further, generally, it is desirable that there is almost nothing on the sleeping surface on the foot side so as not to give the occupant a feeling of pressure in the indoor space due to the arrangement of the beds in the room.

  Therefore, in the conventional sleeping capsule described above, if the shape of the leg side inflow / outflow portion provided on the sleeping surface is changed and the conditioned air is blown upward from the sleeping surface, the indoor air is sucked into the sleeping surface, There is a problem that the air spreads over the entire sleeping room, and particularly because the conditioned air is warm air, it accumulates in the upper part of the sleeping room due to buoyancy, and the effect of “foot heat” cannot be obtained.

  The present invention has been made in view of such a point, and the object of the present invention is to control the air conditioning so that conditioned air blown upward flows to the lower part, so that the foot part side of the sleeping room is It is to control to an air conditioning state suitable for comfort.

  Specifically, the first invention presupposes an air conditioning method in which conditioned air is blown into the use space from the air outlet (61) and the air in the use space is sucked in from the suction port (62) to conditioned the use space. . And the conditioned air which blows off from the said blower outlet (61) flows toward the upper direction along the side wall of the both sides of utilization space, Then, after this conditioned air collides in the ceiling center part of utilization space, it flows below. An airflow space that flows downward is formed by being sucked into the suction port (62).

  In the above invention, the conditioned air blown upward from the outlet (61) does not spread over the entire usage space, and even if the conditioned air is warm air, it does not accumulate in the upper portion of the usage space and moves to the lower portion of the usage space. Flowing. Therefore, for example, the air conditioning of the sleeping person located in the lower part of the use space is performed.

  Moreover, 2nd invention air-conditions the capsule main body (20), the cover member (23) which covers the upper part of this capsule main body (20), and forms the sleep chamber (11), and the said sleep chamber (11). Assumes a sleeping capsule with air conditioning means (14). And the said air-conditioning means (14) is formed between the both sides of the capsule body (20) and the air outlet (61) that is formed on both sides of the capsule body (20) and blows conditioned air into the sleeping room (11). And a suction port (62) that is formed and sucks room air of the sleeping room (11). Further, after the conditioned air blown from the air outlet (61) flows upward along the side wall of the covering member (23) and collides at the center of the ceiling of the covering member (23), the air conditioning means (14) It is configured to flow downward and be sucked into the suction port (62).

  In the above invention, the conditioned air blown out toward the upper part of the sleeping room (11) flows toward the sleeping person positioned at the lower part of the sleeping room (11), so that the air conditioning of the sleeping person is reliably performed. Therefore, if the position of the air outlet (61) is appropriately changed along the both sides of the capsule body (20), an arbitrary place of the sleeping person is air-conditioned.

  In addition, in the third invention according to the second invention, the air conditioning means (14) is composed of a foot air conditioning means (14) that air-conditions the foot side of the sleeping room (11). Apart from the air conditioning means (14), a head air conditioning means (13) for air conditioning the head side of the sleeping room (11) is provided. And the blower outlet (61) of the said foot part air-conditioning means (14) is formed in the foot side edge part of the both sides in a capsule main body (20), and a suction inlet (62) is the foot side of a capsule main body (20) It is formed on the edge.

  In the above invention, air conditioning of the sleeping person's head is performed by the head air conditioning means (13), while air conditioning of the sleeping person's feet is performed by the foot air conditioning means (14). In particular, on the foot side of the sleep room (11), an airflow space is formed in which conditioned air flows toward the sleeping person's foot, so that when the conditioned air is warm air, the sleeping person has “foot heat”. The temperature range is maintained. Therefore, the sleep room (11) suitable for the thermophysiological comfort of the human body is formed.

  Moreover, since the said suction inlet (62) is provided in the leg | edge side edge of the capsule main body (20), the conditioned air which flowed to the lower part of the sleeping room (11) does not flow to the head side, 20) Flows to the rear end. Therefore, the airflow space of the conditioned air is surely formed in the bed part of the sleeping person, and the temperature region of “foot heat” is formed.

  Moreover, 4th invention is provided with the air inflow / outflow part (50) in which the said head air-conditioning means (13) has a blower outlet (51) and a suction inlet (52) in 3rd invention. The air inflow / outflow part (50) has a suction port (52) positioned below the air outlet (51), and generates an air flow that creates a short circuit between the air outlet (51) and the air inlet (52). It is configured to form.

  In the above invention, on the head side of the sleeping room (11), the conditioned air blown out from the air outlet (51) of the air inflow / outflow part (50) to the sleeping room (11) is sucked into the inlet (52) and locally Cause a short circuit. That is, since most of the conditioned air is sucked into the suction port (52) immediately from the air outlet (51), a short circuit area is formed between the air outlet (51) and the air inlet (52), and the sleeping person's Air conditioning of the head is performed.

  Moreover, in said invention, since a suction inlet (52) is arrange | positioned under a blower outlet (51), when the conditioned air of an air inflow / outflow part (50) is cold wind, for example, a lower suction inlet (52) Inhalation is ensured and a short circuit area is reliably formed.

  Therefore, according to the first aspect of the invention, after the conditioned air is blown out from the air outlet (61) along the side walls on both sides of the use space and upward, and then collided at the center of the ceiling of the use space, the use space Since the air flow space of the conditioned air that flows downward is formed by letting it flow into the lower part of the air and sucking it into the suction port (62), even if the conditioned air is warm air, Air conditioning can be performed.

  Moreover, according to 2nd invention, a blower outlet (61) is provided in the both sides of a capsule main body (20), along with the both side walls of the covering member (23) of a sleep room (11), conditioned air is upwards. After the blowout and conditioned air collided at the center of the ceiling (23b) of the covering member (23), it flowed to the lower part of the sleeping room (11) and was sucked into the air inlet (62). Even with wind, an airflow space can be reliably formed in the lower part of the sleeping room (11). Thereby, a sleeper's air conditioning can be performed.

  Moreover, according to the third aspect of the invention, since the air outlet (61) is provided on the foot side on both sides of the capsule body (20) to perform air conditioning of the sleeping person's foot, "foot heat" The sleeper (11) suitable for the thermophysiological comfort of the human body can be formed. In particular, since the suction port (62) is provided at the foot side edge of the capsule body (20), the conditioned air that has flowed to the lower part of the sleeping room (11) does not flow to the head side. The capsule body (20) can flow to the rear end. Therefore, the airflow space of the conditioned air can be surely formed in the bed part of the sleeping person, and the temperature region of “foot heat” can be formed.

  According to the fourth invention, the air inflow / outflow part (50) is provided on the head side of the sleeping room (11), and the suction port (52) is disposed below the air outlet (51) to cause a short circuit. Since it did in this way, the short circuit area | region can be formed and the airflow space which covers a sleeper's head can be formed. In particular, since the suction port (52) is arranged below the air outlet (51), when the conditioned air is cold air, the air is reliably sucked into the lower air inlet (52). A short circuit region can be formed.

  Moreover, since the airflow space of the conditioned air can be formed on the head side and the foot side of the sleeping room (11), if the temperature of the conditioned air blown out from each outlet (51, 61) is individually controlled, the part of the human body Based on another optimum temperature, the sleeper can be maintained in a temperature distribution of “head cold foot heat” that has the lowest head and gradually increases toward the legs. Therefore, it is possible to form a sleep room (11) more suitable for the thermophysiological comfort of the human body. As a result, the comfort of the sleeping person can be improved.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

Embodiment 1 of the Invention
As shown in FIGS. 1-4, the sleep capsule (10) of this embodiment is for performing a nap etc., and comprises the comparatively small sealed space where a sleeper can sleep.

  The sleeping capsule (10) includes a capsule body (20), a covering member (23) that covers the capsule body (20) and forms a sleeping room (11) that is a sleeping space, and a sleeping room (11). A head air-conditioning means (13) and a foot air-conditioning means (14) for air conditioning are provided.

  The capsule body (20) includes a floor base (21). And the air inflow / outflow part (50) of the head air-conditioning means (13) mentioned later is provided in the upper surface of this floor base (21). This air inflow / outflow part (50) is attached over both sides of the head side end of the floor base (21), and also serves as a vertical plate on the head side. In addition, a sleeping mat (22), which is a sleeping part of a sleeping person, is installed on the upper surface of the floor (21). The mat (22) is formed smaller than the area of the upper surface of the floor base (21), and is formed so as to be positioned a predetermined length away from both side ends and foot side end of the floor base (21). Yes. In the present embodiment, the sleeping person's head side is the front side, and the sleeping person's foot side is the rear side.

  The covering member (23) is configured as a hood type including a plurality of unillustrated support bones and a hood cloth covering the support bones. This covering member (23) has a front end on the head side fixed to the air inflow / outflow portion (50), and a rear end on the foot side centered on both sides of the floor base (21). It can be rotated back and forth with respect to (21). That is, the covering member (23) rotates the rear end portion between the head side and the foot side of the capsule body (20) to be in a folded state and an unfolded state, thereby It is configured to open and close. Thus, in the sleeping capsule (10) of the present embodiment, the covering member (23) and the air inflow / outflow portion (50) constitute the partition member of the sleeping room (11).

  The head air conditioning means (13) includes a head air conditioning unit (30F) and an air inflow / outflow part (50). On the other hand, the foot air conditioning means (14) includes a foot air conditioning unit (30R) and an air outlet (61) and a suction port (62) formed in the floor (21). As shown in FIG. 4, the head air conditioning unit (30F) and the foot air conditioning unit (30R) are arranged in one case (31) in an air conditioning fan (32), a heat exhaust fan (33), and a heat exchange member (40). Are housed in a single unit and are arranged inside the floor (21). This figure conceptually shows the configuration and air flow in the head air conditioning unit (30F) and foot air conditioning unit (30R). Further, since both the air conditioning units (30F, 30R) are configured substantially the same, only the foot air conditioning unit (30R) will be described here.

  As shown in FIG. 4, the inside of the case (31) is partitioned into an air conditioning passage (36) and an exhaust heat passage (37) by a partition member. The case (31) is formed with a return air port (35) on the suction side and an air supply port (34) on the outlet side where the air conditioning passage (36) communicates with the sleeping room (11). Yes. In addition, the case (31) includes an outside air intake port (3a) on the suction side where the exhaust heat passage (37) communicates with an air port on the side surface of the floor (21) (not shown) and an exhaust heat port on the outlet side. (3b) is formed.

  The case (31) is provided with an air conditioning fan (32) disposed in the air conditioning passage (36) and an exhaust heat fan (33) disposed in the exhaust heat passage (37). The air conditioning fan (32) and the exhaust heat fan (33) are centrifugal fans, and although not shown, a fan suction port is formed at the center and a fan outlet is formed at a part of the outer peripheral surface.

  The heat exchange member (40) includes a thermoelectric element (41) which is a so-called Peltier element. In this thermoelectric element (41), two hot surfaces are a heating surface and a cooling surface, and a large number of fins are provided on each heat surface to form a first fin group (42) and a second fin group (43). ing. The thermoelectric element (41) passes through the partition members of the air conditioning passage (36) and the exhaust heat passage (37) and is disposed across both passages (36, 37). The first fin group (42) is located in the air conditioning passage (36), and the second fin group (43) is located in the exhaust heat passage (37).

  The first fin group (42) and the second fin group (43) are configured to switch between the heat absorption side and the heat dissipation side when the heating surface and the cooling surface of the thermoelectric element (41) are switched. Yes. That is, during cooling, the first fin group (42) is on the heat absorption side, the second fin group (43) is on the heat dissipation side, and the air in the sleeping room (11) sucked from the return air port (35) is the first fin. Cooled by the group (42) and supplied from the air supply port (34) to the sleeping room (11), the outside air sucked from the outside air intake port (3a) is heated by the second fin group (43) and discharged. It is discharged from the hot mouth (3b). During heating, the first fin group (42) is on the heat dissipation side, the second fin group (43) is on the heat absorption side, and the air in the sleeping room (11) sucked from the return port (35) is the first fin. While heated by the group (42) and supplied to the sleeping room (11) from the air supply port (34), the outside air sucked from the outside air intake port (3a) is cooled by the second fin group (43) and discharged. It is discharged from the hot mouth (3b).

  An evaporation heater (38) is provided on the bottom surface of the case (31) in the exhaust heat passage (37). The evaporation heater (38) evaporates drain dripped from the thermoelectric element (41), and is disposed downstream of the second fin group (43) of the thermoelectric element (41). On the other hand, a drain receiver (39) is provided on the bottom surface of the case (31) in the air conditioning passage (36). The drain receiver (39) guides the drain to the evaporation heater (38). The thermoelectric element (41) is arranged slightly inclined toward the evaporation heater (38) and the drain receiver (39) so that the drain flows to the evaporation heater (38) and the drain receiver (39). It is configured.

  The air inflow / outflow portion (50) described above is connected to the air supply port (34) and the return air port (35) of the head air conditioning unit (30F). This air inflow / outflow part (50) has an air outlet (51) that blows out conditioned air to the front face located on the head side, which is the front side of the mat (22), and an air inlet (52) that sucks in air in the sleeping room (11) And is mainly configured to perform air conditioning of the sleeping person's head. The front side on the head side of the air inflow / outflow part (50) is inclined slightly upward toward the head side in consideration of aesthetic appearance. And the said air inflow / outflow part (50) is comprised so that the airflow flow which produces a short circuit may be formed between a blower outlet (51) and a suction inlet (52), and a blower outlet (51) and a suction inlet (52 ) And a short circuit area is formed in front. In the present embodiment, the head side front surface of the air inflow / outflow portion (50) is slightly inclined, but may be formed upright vertically.

  In the air inflow / outflow part (50), a blowout passage and a suction passage (not shown) are formed, and the blowout passage communicates the blowout port (51) with the air supply port (34) of the head air conditioning unit (30F), A suction passage communicates the suction port (52) with the return air port (35) of the head air conditioning unit (30F).

  The air outlet (51) and the inlet (52) of the air inflow / outflow part (50) are formed in the same rectangular shape. And this blower outlet (51) and suction inlet (52) are located in the vicinity, and the suction inlet (52) is located under the blower outlet (51) in the formed front surface. In addition, in this embodiment, although the blower outlet (51) and the suction inlet (52) are formed in the same opening area, the opening area of a blower outlet (51) is larger than the opening area of a suction inlet (52). It may be formed to effectively prevent drafting to the head of the bedridden by reducing the blowing flow rate.

  On the other hand, the foot air conditioning means (14) sucks the air in the air outlet (61) and the sleeping room (11) that blows conditioned air into the floor (21) where the mat (22) is not installed. A suction port (62) is formed. The air outlet (61) and the air inlet (62) are connected to the air supply port (34) and the return air port (35) of the foot air conditioning unit (30R), respectively. It is configured to harmonize.

  The said blower outlet (61) is formed in the leg side edge part of the both sides of a floor stand (21) 1 each as a characteristic of this invention. Moreover, these two blower outlets (61) are formed in the same rectangular shape, and are mutually arrange | positioned in the left-right symmetric position in a floor stand (21). That is, the two air outlets (61) are formed along the upper surface of the floor base (21) and open upward.

  One suction port (62) is formed on the foot side end of the floor (21). That is, the suction port (62) is formed between both sides of the floor base (21) and is disposed in the vicinity of the air outlet (61). The suction port (62) is formed in a rectangular shape that is larger than the air outlet (61), and is formed along the upper surface of the floor base (21) and opened upward, like the air outlet (61).

  In the foot air conditioning means (14), the conditioned air blown out from the two air outlets (61) rises along the side wall (23a) of the covering member (23) and flows to the ceiling (23b). The conditioned air collides at the center along the ceiling (23b), and then flows downward and is sucked into the suction port (62). Thereby, the airflow space which flows downward from the ceiling part (23b) of the covering member (23) is formed. That is, the foot air-conditioning means (14) is configured to forcibly form a downward flow (down flow) in which conditioned air blown upward from the blower outlet (61) flows downward. And a suction port (62), a short circuit region is formed. Here, for example, when the conditioned air that is blown out is a slightly high-temperature warm air, the conditioned air that has risen up to the ceiling (23b) may accumulate in the upper part of the sleeping room (11) as it is due to the action of buoyancy. The above-mentioned foot air conditioning means (14) causes the conditioned air once raised to collide at the ceiling (23b) and then descend to the feet of the bedridden from the air outlet (61) at an appropriate flow velocity and flow rate. The conditioned air is blown out.

  Moreover, since the said suction inlet (62) is located in the rear-end part of a floor base (21), most of the conditioned air which descend | falls does not flow to the head side, but the rear-end part of a floor base (21) Will flow toward. Thereby, the airflow space of conditioned air can be reliably formed in the sleeping person's foot.

  The sleep capsule (10) is provided with a controller (12) which is a control means for the head air conditioning means (13) and the foot air conditioning means (14). The controller (12) is configured to switch between a cooling operation that drives both the head air conditioning unit (30F) and the foot air conditioning unit (30R) and a heating operation that drives only the foot air conditioning unit (30R). Has been.

  In the cooling operation, the controller (12) controls the heat exchange member (40) so that the temperature of the conditioned air sucked into the suction port (52) of the air inflow / outflow part (50) becomes the set temperature ST1. . That is, the controller (12) controls the thermoelectric element (41) of the head-side air conditioning passage (36) continuous to the air inflow / outflow portion (50), and the air passing through the head-side air conditioning passage (36). Is adjusted to the set temperature ST1. Further, the controller (12) includes a heat exchange member (40) such that the temperature of the conditioned air sucked into the suction port (62) of the foot air conditioning means (14) is higher by α ° C. than the set temperature ST1 (ST1 + α ° C.). ) To control. That is, the controller (12) controls the thermoelectric element (41) of the foot side air conditioning passage (36) communicating with the air outlet (61), and the air passing through the foot side air conditioning passage (36) is controlled. Adjust higher by α ° C. than the set temperature ST1.

  On the other hand, in the heating operation, the controller (12) controls the heat exchange member (40) so that the temperature of the conditioned air sucked into the suction port (62) of the foot air conditioning means (14) becomes the set temperature ST2. To do.

  Control of the controller (12) forms a temperature distribution of “head cold foot heat”, which can be in a state suitable for the thermophysiological comfort of the human body.

-Driving action-
Next, the air conditioning operation of the sleep capsule (10) described above will be described. The sleep capsule (10) is switched between a cooling operation and a heating operation. Here, the operation of the cooling operation will be mainly described.

  In this cooling operation, both the head air conditioning unit (30F) and the foot air conditioning unit (30R) are driven. First, a sleeping person who takes a nap or the like enters the sleeping room (11) on the mat (22), and the covering member (23) folded on the head side is rotated to the foot side to be deployed. To fully close and go to bed. Then, the sleeper sets the set temperature ST1 using the operation box. This set temperature ST1 is input to the controller (12). At the time of non-sleeping, the covering member (23) is folded and fully opened.

  When the air conditioning fan (32) and exhaust heat fan (33) of the head air conditioning unit (30F) are driven, the air in the sleeping room (11) enters the air conditioning passageway (36) from the return air port (35) on the head side. Inhaled. The air in the air conditioning passage (36) passes through the thermoelectric element (41) of the heat exchange member (40) and is heated or cooled to generate conditioned air.

  This conditioned air flows into the air inflow / outflow part (50) from the air supply port (34), flows through the air outlet passage, and blows out from the air outlet (51) to the sleeping room (11). That is, as shown in FIG. 5, most of the conditioned air that blows out from the air outlet (51) of the air inflow / outflow part (50) is blown out to the sleeping person's head and sucked into the lower inlet (52).

  The air sucked into the suction port (52) of the air inflow / outflow part (50) flows through the suction passage, and flows from the return air port (35) to the air conditioning passage (36) of the head air conditioning unit (30F). Thereafter, the air in the air conditioning passage (36) returns to the air conditioning fan (32) through the heat exchange member (40), and the above-described operation is repeated.

  On the other hand, outside air is introduced into the exhaust heat passage (37) from the outside air inlet (3a). The air in the exhaust heat passage (37) passes through the exhaust heat fan (33), and is heated by, for example, the second fin group (43) of the thermoelectric element (41), and is supplied from the exhaust heat port (3b) to the head air conditioning unit. Released to the outside of (30F).

  The drain generated in the first fin group (42) of the thermoelectric element (41) drops on the drain receiver (39), then flows to the evaporation heater (38) and evaporates, and the exhaust port (3b ) And discharged to the outside together with the air in the exhaust heat passage (37).

  Thus, in the air inflow / outflow part (50) on the head side of the sleeping room (11), the conditioned air is blown out from the air outlet (51) to the sleeping room (11), but the inlet (52) Is located below, causing a local short circuit. Thereby, most of the conditioned air is sucked into the suction port (52), and a short circuit region is formed in front of the air outlet (51) and the suction port (52). Therefore, an airflow space of conditioned air covering the sleeping person's head is formed, and air conditioning of the sleeping person's head is performed.

  On the other hand, when the air conditioning fan (32) and exhaust heat fan (33) of the foot air conditioning unit (30R) are driven, the air in the sleeping room (11) is sucked from the suction port (62) on the foot side, and the return air It flows from the mouth (35) to the air conditioning passageway (36). The air in the air conditioning passage (36) passes through the thermoelectric element (41) of the heat exchange member (40) and is heated or cooled to generate conditioned air.

  As shown in FIGS. 5 and 6, the conditioned air is blown upward from the two air outlets (61) through the air supply port (34), and along the side wall (23 a) of the covering member (23). Ascend to the top of the sleeping room (11). The raised conditioned air hits the ceiling (23b) of the covering member (23) and then flows toward the center of the ceiling (23b). The conditioned air flowing from both sides toward the center collides at the center, flows to the lower part of the sleeping room (11), and is sucked into the suction port (62). That is, most of the conditioned air blown out from the air outlet (61) does not collect in the upper part of the sleeping room (11), but surely flows to the lower part where the sleeping person's feet are located, thereby forming an air flow space of the conditioned air. (See A in FIGS. 5 and 6).

  Most of the conditioned air that flows to the lower part of the sleeping room (11) does not flow to the head side but flows to the rear end of the floor base (21) toward the suction port (62). A conditioned air flow space is reliably formed on the side. A part of the conditioned air blown out from the air outlet (51) of the air inflow / outflow part (50) flows in the lower part of the sleeping room (11) toward the foot side. Therefore, the airflow space on the foot side is not disturbed. In addition, the conditioned air which blows off from the said blower outlet (61) is adjusted only (alpha) degreeC higher than preset temperature ST1 by the thermoelectric element (41). That is, the temperature of the conditioned air on the foot side is higher than the temperature of the conditioned air on the head side. The flow of various air in the foot air conditioning unit (30R) is the same as that in the head air conditioning unit (30F) described above.

  In this way, on the foot side of the sleeping room (11), conditioned air is blown upward from the air outlet (61). Wake up. As a result, most of the conditioned air is sucked into the suction port (62), and a short circuit region is formed above the air outlet (61) and the suction port (62), that is, around the feet of the sleeping person. Therefore, an airflow space of conditioned air that covers the sleeping person's feet is formed, and air conditioning of the sleeping person's feet is performed.

  On the other hand, in the heating operation, only the foot air conditioning unit (30R) is driven. The sleeper enters the sleeping room (11) and sets the set temperature ST2 using the operation box. This set temperature ST2 is input to the controller (12). The driving operation in the foot air conditioning unit (30R) and the air flow on the foot side of the sleeping room (11) are the same as in the cooling operation described above.

  Next, the temperature distribution state of the sleeping room (11) formed by the cooling operation and the heating operation described above will be described with reference to FIGS. Thus, the sleep room (11) is in a temperature distribution state as shown in FIGS. Here, T1 to T7 in the figure indicate predetermined temperature ranges, respectively, and the temperature decreases in the order of T1, T2,. 7 and 9 show a longitudinal section at the center in the width direction of the sleeping capsule (10), and FIGS. 8 and 10 show a height of 20 mm from the mat (22) surface of the sleeping room (11). The horizontal cross section is shown.

  The sleeping room (11) in the cooling operation is in a temperature distribution state as shown in FIGS. Specifically, on the head side of the sleep room (11), the front of the air outlet (51) and the suction port (52) of the air inflow / outflow part (50) is approximately the temperature region of T6 and T7, and the sleep room ( In the central part of 11), the lower part which is the sleeping position of the sleeping person is a temperature region of T4, T5 and T6. On the other hand, on the foot side of the sleeping room (11), the region of the air outlet (61) on both sides is the highest T2 temperature region, and the region of the sleeping person's foot and suction port (62) is the temperature of T3. It is an area. Here, on the foot side of the sleeping room (11), cold air having a lower temperature (T5, T6, etc.) than T3 on the head side does not flow into the foot side, and a warm air flow space is reliably formed, and the sleeper It can be seen that it covers the foot portion (see portion A in FIGS. 7 and 8).

  The sleeping room (11) in the heating operation is in a temperature distribution state as shown in FIGS. Specifically, between the head side and the central part of the sleep room (11), the temperature region is approximately T6 and T7. On the other hand, on the foot side of the sleeping room (11), the regions of the air outlets (61) on both sides are the highest temperature regions of T1 and T2, and the region of the sleeping person's feet and the suction port (62) is T3. And the temperature region of T4. Here again, as in the case of the cooling operation, the warm air space does not enter the sleeping person's foot on the foot side of the sleeping room (11) without entering the conditioned air of the low temperature (such as T6 or T7) on the head side. It can be seen that they are covered (see part A in FIGS. 9 and 10). That is, in any of the above-described operations, the sleep room (11) has a temperature distribution of “head cold foot heat” in which the temperature is the lowest in the sleeping person's head and gradually increases toward the foot.

  In this way, the conditioned air blown upward from the air outlets (61) on both sides collides at the center of the ceiling (23b) of the covering member (23) and flows downward, so that the conditioned air of hot air blown upwards In spite of this, it is possible to form a warm air flow space in the sleeping person's feet without accumulating the conditioned air in the upper part of the sleeping room (11).

-Effect of the embodiment-
As described above, according to this embodiment, the air outlet (61) is provided on both sides of the capsule body (20), and the side wall (23a) of the covering member (23) of the sleeping room (11) that is the use space Conditioned air is blown out along and upwards, and then the conditioned air collides at the center of the ceiling (23b) of the covering member (23), then flows to the lower part of the sleeping room (11) and is sucked into the air inlet (62) Since it did in this way, even if conditioned air is warm air, airflow space can be reliably formed in the lower part of a sleep room (11). Thereby, a sleeper's air conditioning can be performed.

  Further, since the air outlet (61) is provided on the foot side for air conditioning of the sleeper's foot, the sleeper can be maintained in the temperature range of “foot heat”, and the heat of the human body A sleep room (11) suitable for physiological comfort can be formed. In particular, since the suction port (62) is provided on the foot side edge of the capsule body (20), the conditioned air flowing to the lower part of the sleeping room (11) does not flow to the head side, 20) Flows to the rear end. Therefore, the airflow space of the conditioned air can be surely formed in the bed part of the sleeping person, and the temperature region of “foot heat” can be formed.

  In addition, an air inflow / outflow part (50) is provided on the head side of the sleeping room (11), and the suction port (52) is arranged below the air outlet (51) to cause a short circuit. An airflow space that covers the sleeper's head by forming a region can be formed. In particular, since the conditioned air in the air inflow / outflow part (50) is cold air, the air is reliably sucked into the lower suction port (52), so that a short circuit region can be reliably formed.

  In addition, because the air flow space of conditioned air is formed on both the head side and the foot side of the sleep room (11) and the temperature of the conditioned air blown out from each outlet (51, 61) is individually controlled, A sleep room (11) suitable for the thermophysiological comfort of can be formed. That is, the bedridden can be maintained in a temperature distribution of “head cold foot heat” that has the lowest head and gradually increases toward the legs based on the optimum temperature for each part of the human body. As a result, the comfort of the sleeping person can be improved.

  Further, since the air inflow / outflow portion (50) is not provided on the upper surface of the foot base (21) in the capsule body (20) as in the head portion, the covering member (23) is not used when sleeping. Since it is turned from the foot side to the head side so that it is fully open, it is possible to create a state where there is almost no space occupancy on the floor (21) surface of the foot side when not sleeping. . Therefore, the feeling of pressure in the indoor space given to the occupants can be suppressed. As a result, the sleeping capsule (10) suitable for the living space can be provided.

<< Other Embodiments >>
The present invention may be configured as follows with respect to the above embodiment.

  For example, in each of the above embodiments, the cover member (23) is rotated between the head side and the foot side of the capsule body (20) to open and close, but the left side of the capsule body (20) It may be a single-open type that opens and closes by rotating between the right side and the right side, or a double-open type that opens and closes by rotating from the center in the width direction of the capsule body (20) to the left and right.

  Further, on the head side of the sleep room (11), an air inflow / outflow part (50) is provided to form an air flow space of conditioned air on the head side. Other means may be used as long as a short circuit is formed between the outlet (51) and the suction port (52) to form a short circuit region covering the head of the sleeping person.

  In each of the above embodiments, the conditioned air outlet (51, 61) and the inlet (52, 62) are provided on the head side and the foot side. An air outlet for conditioned air or the like may also be provided at the intermediate portion.

  The heat exchange member (40) is not limited to the thermoelectric element (41), and may be an evaporator or a condenser of a vapor compression refrigeration cycle.

  Moreover, although the case where the air conditioning method of this invention was applied to the air conditioning of the foot part side of a sleep capsule (10) was demonstrated, it is not restricted to this, It seems to apply to the air conditioning of sealed utilization space, such as a capsule hotel. It may be.

  As described above, the present invention is useful as a sleep capsule having an air conditioning function.

It is a perspective view which abbreviate | omits and shows the sleep capsule which concerns on embodiment. It is a schematic side view which shows the sleep capsule which concerns on embodiment including a covering member. It is a schematic plan view which shows the sleep capsule which concerns on embodiment including a covering member. It is a schematic block diagram which shows the air conditioning unit which concerns on embodiment. It is a longitudinal cross-sectional view which shows the airflow state in the sleep room at the time of air_conditionaing | cooling driving | operation. It is a cross-sectional view showing the airflow state on the foot side in the sleep room during the cooling operation. It is a characteristic view which shows the temperature distribution in the longitudinal cross-section of the sleeping room at the time of air_conditionaing | cooling driving | operation. It is a characteristic view which shows the temperature distribution in the horizontal cross section of the sleeping room at the time of air_conditionaing | cooling operation. It is a characteristic view which shows the temperature distribution in the longitudinal cross-section of the sleeping room at the time of heating operation. It is a characteristic view which shows the temperature distribution in the horizontal cross section of the sleeping room at the time of heating operation.

Explanation of symbols

10 sleep capsule
11 Sleeping room
13 Head air conditioning means
14 Foot air conditioning
20 capsule body
23 Covering material
50 Air inlet / outlet
51,61 outlet
51,62 Suction port

Claims (4)

An air conditioning method in which conditioned air is blown into a use space from an air outlet (61), and air in the use space is sucked from a suction port (62) to air condition the use space,
The conditioned air blown out from the air outlet (61) flows upward along the side walls on both sides of the use space, and then the conditioned air collides at the center of the ceiling of the use space, and then flows downward to the suction port. (62) The air conditioning method characterized by forming the airflow space which flows below by being sucked into. A capsule body (20), a covering member (23) that covers the capsule body (20) and forms a sleeping room (11), and air conditioning means (14) that air-conditions the sleeping room (11) A sleeping capsule,
The air conditioning means (14) is formed between both sides of the capsule body (20) and the air outlet (61) that is formed on both sides of the capsule body (20) and blows conditioned air into the sleeping room (11). And a suction port (62) for sucking indoor air in the sleeping room (11),
The air-conditioning means (14) is arranged such that the conditioned air blown out from the air outlet (61) flows upward along the side wall of the covering member (23) and collides at the center of the ceiling of the covering member (23), and then It is comprised so that it may flow into and may be sucked into a suction inlet (62), The sleep capsule characterized by the above-mentioned. In claim 2,
While the air conditioning means (14) is composed of the foot air conditioning means (14) for air conditioning the foot side of the sleeping room (11),
Separately from the foot air conditioning means (14), a head air conditioning means (13) for air conditioning the head side of the sleeping room (11) is provided,
The air outlet (61) of the foot air conditioning means (14) is formed at the foot side ends of both sides of the capsule body (20), and the suction port (62) is the foot side edge of the capsule body (20). A sleeping capsule, characterized in that it is formed. In claim 3,
The head air-conditioning means (13) includes an air inflow / outflow part (50) having an air outlet (51) and a suction port (52),
In the air inflow / outflow part (50), the air inlet (52) is positioned substantially below the air outlet (51) and forms an air flow that creates a short circuit between the air outlet (51) and the air inlet (52). A sleep capsule characterized by being configured to.

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