公开(公告)号：US20100293715A1

公开(公告)日：2010-11-25

申请号：US12739916

申请日：2008-10-21

申请人： Noriaki Sakamoto ,  Tatsuya Ozaki ,  Koichiro Ochiai ,  Kosaku Adachi ,  Yuji Emura ,  Hiroya Ishikawa

发明人： Noriaki Sakamoto ,  Tatsuya Ozaki ,  Koichiro Ochiai ,  Kosaku Adachi ,  Yuji Emura ,  Hiroya Ishikawa

IPC分类号： A47C21/04

CPC分类号： A47C21/048 ,  A47C17/80 ,  A47C21/044 ,  A47G9/0215 ,  A61F7/08 ,  A61F2007/0055 ,  A61F2007/0057 ,  A61F2007/0086 ,  A61F2007/0096 ,  A61G10/005 ,  A61G2210/70 ,  A61G2210/90 ,  B60H1/00378

摘要： Provided is temperature-controlled air circulation type bedding which introduces the blowoff air generated by temperature control unit into an air flow passage provided around a bedding body so as to cool or warm the body of a person in the bedding, controls the blowoff air temperature to form a comfortable sleeping environment irrespective of an external atmosphere temperature, suppresses discharge of carbon dioxide gas, etc. with a compact configuration, and has low power consumption. The temperature-controlled air circulation type bedding includes a temperature control unit 2 which controls the blowoff air temperature by a cooling or heating action, and a bedding body 3 which provides an air flow passage 27 which allows the blowoff air from the temperature control unit to be introduced and circulated therethrough, and cools or warms the inside thereof. The temperature of air which circulates through the bedding is detected so that the temperature of the blowoff air is controlled by the temperature control unit.

摘要翻译： 提供了一种温度控制的空气循环式床上用品，其将由温度控制单元产生的吹出空气引入设置在床身体周围的空气流动通道中，以冷却或加热床上人的身体，将吹送空气温度控制在 形成舒适的睡眠环境，而与外部气氛温度无关，抑制二氧化碳气体等的排出，结构紧凑，功耗低。 温度控制的空气循环型床上用品包括通过冷却或加热动作控制吹出空气温度的温度控制单元2和提供空气流动通道27的床身体3，床主体3允许来自温度控制单元的吹出空气 引入并循环，冷却或加热其内部。 检测通过床垫循环的空气的温度，使得吹出空气的温度由温度控制单元控制。

公开(公告)号：US20100263395A1

公开(公告)日：2010-10-21

申请号：US12742004

申请日：2008-10-30

申请人： Kosaku Adachi ,  Noriaki Sakamoto ,  Tatsuya Ozaki ,  Koichiro Ochiai ,  Yuji Emura ,  Hiroya Ishikawa ,  Takayuki Nakata

发明人： Kosaku Adachi ,  Noriaki Sakamoto ,  Tatsuya Ozaki ,  Koichiro Ochiai ,  Yuji Emura ,  Hiroya Ishikawa ,  Takayuki Nakata

IPC分类号： B60H1/32 ,  F25B39/04 ,  B60H1/34

CPC分类号： B60H1/00378 ,  B60H1/00271 ,  B60H1/00428 ,  B60H1/00742 ,  B60H1/00842 ,  B60H1/247 ,  Y02T10/88

摘要： Provided is a vehicle-mounted temperature control device (2) capable of suppressing resource wasting or environmental contamination during an idling stop, an easily installed vehicle-mounted refrigeration unit which blows off cooled or warmed air to the inside of a vehicle, and selectively cooling or warming not only a napping cabin behind the driver's seat, but also the driver's seat. The vehicle-mounted temperature control device includes a refrigeration unit having a refrigeration cycle in which a compressor, a condenser, and an evaporator to which driving electric power is supplied by a battery 5 are annularly connected; a temperature control chamber formed from a heat-insulating wall body having a blowoff air trunk and a return air trunk and having a circulation fan and the evaporator in the refrigeration cycle housed therein; and a machine chamber in which the compressor, the condenser, and a radiation fan which cools the compressor and condenser are disposed. The refrigeration unit (2) is attached to the inside of a napping cabin (4) behind the driver's seat (3), and the cool or warm air generated by the evaporator being blown off to either the driver's seat or the inside of the napping cabin, or both so that temperature is controlled.

摘要翻译： 本发明提供一种能够抑制怠速停止时的资源浪费或环境污染的车载温度控制装置（2），将冷却或温热的空气吹送到车辆内部的容易安装的车载制冷机组，并且选择性地冷却 或者不仅在驾驶员座椅后面的一个小睡舱，还可以驾驶座椅。 车载温度控制装置包括具有制冷循环的制冷单元，其中由电池5供给驱动电力的压缩机，冷凝器和蒸发器环形连接; 温度控制室，由具有吹出空气导管和返回空气导管的隔热壁体形成，并具有容纳在其中的制冷循环中的循环风扇和蒸发器; 以及设置有压缩机，冷凝器和冷却压缩机和冷凝器的辐射风扇的机械室。 制冷单元（2）安装在驾驶员座椅（3）后面的起飞舱（4）的内部，并且由蒸发器产生的冷或暖空气被吹送到驾驶员座椅或起毛的内部 舱或两者，以便控制温度。

公开(公告)号：US20070125119A1

公开(公告)日：2007-06-07

申请号：US10569645

申请日：2004-08-25

申请人： Yoshiro Naemura ,  Shigeru Niki ,  Kunio Nii ,  Yasushi Takagi ,  Ryousuke Yamamoto ,  Kosaku Adachi ,  Koji Mishima

发明人： Yoshiro Naemura ,  Shigeru Niki ,  Kunio Nii ,  Yasushi Takagi ,  Ryousuke Yamamoto ,  Kosaku Adachi ,  Koji Mishima

IPC分类号： F25D11/00 ,  F25B39/04

CPC分类号： F25D23/006 ,  F25D21/14 ,  F25D23/003 ,  F25D29/005 ,  F25D2400/04 ,  F25D2500/02

摘要： A refrigerator stated is characterized in that it includes a machine room (14) formed on a lower part of a rear of a main body of the refrigerator; a refrigerant compressor (12) installed offset to one side in the machine room (14) in a width direction; and a cooler (9) for receiving a refrigerant from the refrigerant compressor (12) and cooling an inside of a storage chamber; wherein the cooler (9) is arranged inside the refrigerator via a heat insulating wall (3a) of the main body above the refrigerant compressor (12) arranged on one side of the machine room (14) and at a position on an opposite side of the refrigerant compressor (12) in a width direction; and control and power source boards (21) of the refrigerator are arranged in another wide space of the refrigerant compressor (12) in the machine room (14) in a width direction. As described above, a refrigerator is provided which, by changing the position relationship and structure of the cooler (9), the refrigerant compressor (12), and the control and power source boards (21), can reduce the thermal loss of the cooler (9), improve the heat insulation efficiency, and increase the heat radiation efficiency of the machine room (14) and a condenser (13), and thereby can obtain a power conservation effect.

摘要翻译： 一种冰箱，其特征在于，它包括形成在冰箱主体后部的下部的机房（14） 制冷剂压缩机（12），其在宽度方向上偏置到机房（14）的一侧; 以及用于从制冷剂压缩机（12）接收制冷剂并冷却储藏室内部的冷却器（9） 其中，所述冷却器（9）经由设置在所述机器室（14）的一侧的所述制冷剂压缩机（12）的上方的所述主体的隔热壁（3a）配置在所述冰箱内部，并且位于相对侧的位置 的制冷剂压缩机（12）的宽度方向; 冰箱的控制电源板（21）在宽度方向上配置在机房（14）的制冷剂压缩机12的另一宽的空间中。 如上所述，通过改变冷却器（9）的位置关系和结构，制冷剂压缩机（12）以及控制和电源板（21），可以降低冷却器的热损失， （9），提高隔热效率，提高机房（14）和冷凝器（13）的散热效率，从而可以获得节能效果。