JP2017178087A5 - - Google Patents
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- JP2017178087A5 JP2017178087A5 JP2016069319A JP2016069319A JP2017178087A5 JP 2017178087 A5 JP2017178087 A5 JP 2017178087A5 JP 2016069319 A JP2016069319 A JP 2016069319A JP 2016069319 A JP2016069319 A JP 2016069319A JP 2017178087 A5 JP2017178087 A5 JP 2017178087A5
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- 238000001816 cooling Methods 0.000 claims description 60
- 239000011232 storage material Substances 0.000 claims description 26
- 238000007664 blowing Methods 0.000 claims description 20
- 238000009423 ventilation Methods 0.000 claims description 13
- 238000010521 absorption reaction Methods 0.000 claims description 12
- 238000005338 heat storage Methods 0.000 claims description 11
- 230000017525 heat dissipation Effects 0.000 claims description 6
- 238000002844 melting Methods 0.000 claims description 6
- 239000000463 material Substances 0.000 claims description 2
- 239000007787 solid Substances 0.000 claims 3
- 230000001143 conditioned Effects 0.000 claims 2
- 239000007788 liquid Substances 0.000 claims 2
- 239000000126 substance Substances 0.000 claims 2
- 239000000155 melt Substances 0.000 claims 1
- 238000011144 upstream manufacturing Methods 0.000 claims 1
- 238000007710 freezing Methods 0.000 description 1
Description
開示された冷風供給装置のひとつは、所定の通電状態に制御された場合に放熱する放熱部(4a)と吸熱する吸熱部(4b)とを有するペルチェ素子(4)と、放熱部に対して熱伝達可能に設けられ、通過する空気と熱交換する放熱用熱交換部(3)と、容器(5a)内に蓄冷材(5b)を収容し吸熱部に対して熱伝達可能に設けられた蓄冷部(5)と、蓄冷部に対して熱伝達可能に設けられ、通過する空気と熱交換する放冷用熱交換部(106)と、放熱用熱交換部および放冷用熱交換部に対して送風可能な送風機(1)と、放冷用熱交換部を通過する空気が流れる放冷用通路(23)を遮断する状態と開放する状態とにわたって切り換え可能な通風切換装置(7,8)と、送風機の作動と通風切換装置の作動とを制御する制御装置(50)と、を備え、
放冷用熱交換部は、吸熱部に対して熱伝達可能に設けられる放冷用熱交換部から立設する複数の板状部材であって通過する空気と熱交換するフィン(106a)を有し、フィンの内部には蓄冷材が収容されている。
開示された冷風供給装置のひとつは、所定の通電状態に制御された場合に放熱する放熱部(4a)と吸熱する吸熱部(4b)とを有するペルチェ素子(4)と、放熱部に対して熱伝達可能に設けられ、通過する空気と熱交換する放熱用熱交換部(3)と、容器(5a)内に蓄冷材(5b)を収容し吸熱部に対して熱伝達可能に設けられた蓄冷部(5)と、蓄冷部に対して熱伝達可能に設けられ、通過する空気と熱交換する放冷用熱交換部(6;106)と、放熱用熱交換部および放冷用熱交換部に対して送風可能な送風機(1)と、放冷用熱交換部を通過する空気が流れる放冷用通路(23)を遮断する状態と開放する状態とにわたって切り換え可能な通風切換装置(7,8)と、送風機の作動と通風切換装置の作動とを制御する制御装置(50)と、を備え、
制御装置は、蓄冷材、放冷用熱交換部、蓄冷部の容器および吸熱部のいずれかについて検出した検出温度が、蓄冷材の融点よりも高い温度に設定された第1閾値以下に低下すると放冷用熱交換部に対する送風を開始し、検出温度が、第1閾値よりも所定温度高い温度に設定された第2閾値以上に上昇すると放冷用熱交換部への送風を停止する。
One of the disclosed cold air supply devices is a Peltier element (4) having a heat radiating part (4a) that radiates heat and a heat absorbing part (4b) when controlled to a predetermined energized state, and a heat radiating part. The heat-dissipating heat exchange part (3) for exchanging heat with the passing air and the heat storage part (3b) for accommodating the cold storage material (5b) in the container (5a) are provided so as to be able to transfer heat to the heat-absorbing part. In the cold storage part (5), the heat storage part ( 106 ) for cooling, which is provided so as to be able to transfer heat to the cold storage part and exchanges heat with the passing air, the heat exchange part for heat radiation and the heat exchange part for cooling On the other hand, a ventilation switching device (7, 8) that can be switched between a state in which the blower (1) capable of blowing air and a cooling passage (23) through which air passing through the cooling heat exchanger flows is blocked and opened. ), And a control device (5 for controlling the operation of the blower and the ventilation switching device) ) And, with a,
The cooling heat exchange section is a plurality of plate-like members standing from the cooling heat exchange section provided so as to be able to transfer heat to the heat absorption section, and has fins (106a) that exchange heat with the passing air. and, that have the inside of the fin are accommodated regenerator material.
One of the disclosed cold air supply devices is a Peltier element (4) having a heat radiating part (4a) that radiates heat and a heat absorbing part (4b) when controlled to a predetermined energized state, and a heat radiating part. The heat-dissipating heat exchange part (3) for exchanging heat with the passing air and the heat storage part (3b) for accommodating the cold storage material (5b) in the container (5a) are provided so as to be able to transfer heat to the heat-absorbing part. A heat storage section (5), a heat exchange section for cooling (6; 106) that is provided so as to be able to transfer heat to the cold storage section and exchanges heat with the passing air, a heat exchange section for heat radiation, and a heat exchange for cooling Ventilation switching device (7) capable of switching between a state in which the blower (1) capable of blowing air to the part and a cooling passage (23) through which the air passing through the cooling heat exchanger flows is blocked and opened. 8) and a control device for controlling the operation of the blower and the operation of the ventilation switching device ( 0) and, with a,
When the detected temperature detected for any one of the cold storage material, the heat exchanger for cooling, the container of the cold storage unit, and the heat absorption unit falls below the first threshold set to a temperature higher than the melting point of the cold storage material. When ventilation to the heat-removing part for cooling is started and the detected temperature rises above a second threshold set to a temperature higher than the first threshold by a predetermined temperature, the blowing to the heat-exchange part for cooling is stopped.
開示された冷風供給装置のひとつは、所定の通電状態に制御された場合に放熱する放熱部(4a)と吸熱する吸熱部(4b)とを有するペルチェ素子(4)と、放熱部に対して熱伝達可能に設けられ、通過する空気と熱交換する放熱用熱交換部(3)と、容器(5a)内に蓄冷材(5b)を収容し吸熱部に対して熱伝達可能に設けられた蓄冷部(5)と、蓄冷部に対して熱伝達可能に設けられ、通過する空気と熱交換する放冷用熱交換部(106)と、放熱用熱交換部に対して送風可能な第1送風機(101)と、放冷用熱交換部に対して送風可能な第2送風機(9)と、ペルチェ素子への通電を制御し、第1送風機の作動および第2送風機の作動を制御する制御装置(50)と、を備え、
放冷用熱交換部は、吸熱部に対して熱伝達可能に設けられる放冷用熱交換部から立設する複数の板状部材であって通過する空気と熱交換するフィン(106a)を有し、フィンの内部には蓄冷材が収容されており、
制御装置は、ペルチェ素子を所定の通電状態に制御し、かつ第2送風機による送風を行わず第1送風機によって放熱用熱交換部に送風し、吸熱部から吸熱して蓄熱材に冷熱を蓄える蓄冷モードと、ペルチェ素子を所定の通電状態に制御し、かつ第1送風機によって放熱用熱交換部に送風するとともに第2送風機によって放冷用熱交換部に送風する放冷モードと、を交互に切り換える。
開示された冷風供給装置のひとつは、所定の通電状態に制御された場合に放熱する放熱部(4a)と吸熱する吸熱部(4b)とを有するペルチェ素子(4)と、放熱部に対して熱伝達可能に設けられ、通過する空気と熱交換する放熱用熱交換部(3)と、容器(5a)内に蓄冷材(5b)を収容し吸熱部に対して熱伝達可能に設けられた蓄冷部(5)と、蓄冷部に対して熱伝達可能に設けられ、通過する空気と熱交換する放冷用熱交換部(6;106)と、放熱用熱交換部に対して送風可能な第1送風機(101)と、放冷用熱交換部に対して送風可能な第2送風機(9)と、ペルチェ素子への通電を制御し、第1送風機の作動および第2送風機の作動を制御する制御装置(50)と、を備え、
制御装置は、ペルチェ素子を所定の通電状態に制御し、かつ第2送風機による送風を行わず第1送風機によって放熱用熱交換部に送風し、吸熱部から吸熱して蓄熱材に冷熱を蓄える蓄冷モードと、ペルチェ素子を所定の通電状態に制御し、かつ第1送風機によって放熱用熱交換部に送風するとともに第2送風機によって放冷用熱交換部に送風する放冷モードと、を交互に切り換え、
制御装置は、蓄冷材、放冷用熱交換部、蓄冷部の容器および吸熱部のいずれかについて検出した検出温度が、蓄冷材の融点よりも高い温度に設定された第1閾値以下に低下すると放冷用熱交換部に対する送風を開始し、検出温度が、第1閾値よりも所定温度高い温度に設定された第2閾値以上に上昇すると放冷用熱交換部への送風を停止する。
One of the disclosed cold air supply devices is a Peltier element (4) having a heat radiating part (4a) that radiates heat and a heat absorbing part (4b) when controlled to a predetermined energized state, and a heat radiating part. The heat-dissipating heat exchange part (3) for exchanging heat with the passing air and the heat storage part (3b) for accommodating the cold storage material (5b) in the container (5a) are provided so as to be able to transfer heat to the heat-absorbing part. The cool storage unit (5), the heat storage unit ( 106 ) that is provided so as to be able to transfer heat to the cool storage unit, and exchanges heat with the passing air, and the first heat source that can blow air to the heat exchange unit for heat dissipation. Control for controlling the operation of the first blower and the second blower by controlling energization to the blower (101), the second blower (9) capable of blowing air to the cooling heat exchanger, and the Peltier element An apparatus (50),
The cooling heat exchange section is a plurality of plate-like members standing from the cooling heat exchange section provided so as to be able to transfer heat to the heat absorption section, and has fins (106a) that exchange heat with the passing air. And the cool storage material is stored inside the fin,
The control device controls the Peltier element to a predetermined energized state, does not blow air by the second blower, blows air to the heat radiating heat exchange portion by the first blower, absorbs heat from the heat absorption portion, and stores cold heat in the heat storage material The mode and the cooling mode in which the Peltier element is controlled to be in a predetermined energized state and are blown to the heat-dissipating heat exchange unit by the first blower and are also blown to the cooling heat-exchange unit by the second blower are alternately switched. .
One of the disclosed cold air supply devices is a Peltier element (4) having a heat radiating part (4a) that radiates heat and a heat absorbing part (4b) when controlled to a predetermined energized state, and a heat radiating part. The heat-dissipating heat exchange part (3) for exchanging heat with the passing air and the heat storage part (3b) for accommodating the cold storage material (5b) in the container (5a) are provided so as to be able to transfer heat to the heat-absorbing part. It is provided so that heat can be transferred to the cold storage unit (5) and the cold storage unit, and can be blown to the cool heat exchange unit (6; 106) for exchanging heat with the passing air and to the heat dissipation heat exchange unit. The first blower (101), the second blower (9) capable of blowing air to the cooling heat exchanger, and the Peltier element are energized to control the operation of the first blower and the second blower. A control device (50) for
The control device controls the Peltier element to a predetermined energized state, does not blow air by the second blower, blows air to the heat radiating heat exchange portion by the first blower, absorbs heat from the heat absorption portion, and stores cold heat in the heat storage material The mode and the cooling mode in which the Peltier element is controlled to a predetermined energized state and the first fan blows air to the heat-dissipating heat exchanger and the second fan blows to the heat-releasing heat exchanger are alternately switched. ,
When the detected temperature detected for any one of the cold storage material, the heat exchanger for cooling, the container of the cold storage unit, and the heat absorption unit falls below the first threshold set to a temperature higher than the melting point of the cold storage material. When ventilation to the heat-removing part for cooling is started and the detected temperature rises above a second threshold set to a temperature higher than the first threshold by a predetermined temperature, the blowing to the heat-exchange part for cooling is stopped.
図17に示すように、冷風ECU50は、ステップ125において、ペルチェ素子を所定の通電状態に制御しかつ放冷用熱交換部に対する送風の停止中に、振動装置53を運転して放冷用熱交換部6に振動を与える。振動装置53は、電圧や超音波を印加することによって、放冷用熱交換部6を振動させる。これによれば、放冷用熱交換部106の凍結防止に貢献でき、通風抵抗を抑制することができるので、効率的な冷風供給に寄与する。 As shown in FIG. 17, in step 125, the cold air ECU 50 controls the Peltier element to a predetermined energized state and operates the vibration device 53 to stop the cooling heat while the air blowing to the cooling heat exchanger is stopped. Vibration is given to the exchange unit 6. The vibration device 53 vibrates the heat exchanger 6 for cooling by applying a voltage or an ultrasonic wave. According to this, can contribute to prevent freezing of the cooling heat exchange portion 106, it is possible to suppress the passing wind resistance, contributing to efficient cold air supply.
Claims (11)
前記放熱部に対して熱伝達可能に設けられ、通過する空気と熱交換する放熱用熱交換部(3)と、
容器(5a)内に蓄冷材(5b)を収容し前記吸熱部に対して熱伝達可能に設けられた蓄冷部(5)と、
前記蓄冷部に対して熱伝達可能に設けられ、通過する空気と熱交換する放冷用熱交換部(106)と、
前記放熱用熱交換部および前記放冷用熱交換部に対して送風可能な送風機(1)と、
前記放冷用熱交換部を通過する空気が流れる放冷用通路(23)を遮断する状態と開放する状態とにわたって切り換え可能な通風切換装置(7,8)と、
前記送風機の作動と前記通風切換装置の作動とを制御する制御装置(50)と、
を備え、
前記放冷用熱交換部は、前記吸熱部に対して熱伝達可能に設けられる前記放冷用熱交換部から立設する複数の板状部材であって前記通過する空気と熱交換するフィン(106a)を有し、前記フィンの内部には前記蓄冷材が収容されている冷風供給装置。 A Peltier element (4) having a heat radiating part (4a) that radiates heat and a heat absorbing part (4b) that absorbs heat when controlled in a predetermined energized state;
A heat exchanging part (3) for heat dissipation, which is provided so as to be able to transfer heat to the heat dissipating part and exchanges heat with the passing air;
A cold storage part (5) provided in the container (5a) so as to be capable of transferring heat to the heat absorption part by accommodating the cold storage material (5b);
A heat exchanging part for cooling ( 106 ) provided so as to be able to transfer heat to the cold storage part and exchanging heat with the passing air;
A blower (1) capable of blowing air to the heat-dissipating heat exchange part and the cooling heat-exchange part;
A ventilation switching device (7, 8) capable of switching between a state where the cooling passage (23) through which the air passing through the cooling heat exchange section flows is shut off and a state where the passage is opened;
A control device (50) for controlling the operation of the blower and the operation of the ventilation switching device;
Equipped with a,
The heat exchanger for cooling is a plurality of plate-like members standing from the heat exchanger for cooling to be provided so as to be able to transfer heat to the heat absorbing portion, and fins for exchanging heat with the passing air ( has 106a), cool air supply device said cold accumulating material is that is housed in the interior of the fin.
前記放熱部に対して熱伝達可能に設けられ、通過する空気と熱交換する放熱用熱交換部(3)と、
容器(5a)内に蓄冷材(5b)を収容し前記吸熱部に対して熱伝達可能に設けられた蓄冷部(5)と、
前記蓄冷部に対して熱伝達可能に設けられ、通過する空気と熱交換する放冷用熱交換部(106)と、
前記放熱用熱交換部に対して送風可能な第1送風機(101)と、
前記放冷用熱交換部に対して送風可能な第2送風機(9)と、
前記ペルチェ素子への通電を制御し、前記第1送風機の作動および前記第2送風機の作動を制御する制御装置(50)と、
を備え、
前記放冷用熱交換部は、前記吸熱部に対して熱伝達可能に設けられる前記放冷用熱交換部から立設する複数の板状部材であって前記通過する空気と熱交換するフィン(106a)を有し、前記フィンの内部には前記蓄冷材が収容されており、
前記制御装置は、
前記ペルチェ素子を前記所定の通電状態に制御し、かつ前記第2送風機による送風を行わず前記第1送風機によって前記放熱用熱交換部に送風し、前記吸熱部から吸熱して蓄熱材に冷熱を蓄える蓄冷モードと、
前記ペルチェ素子を前記所定の通電状態に制御し、かつ前記第1送風機によって前記放熱用熱交換部に送風するとともに前記第2送風機によって前記放冷用熱交換部に送風する放冷モードと、
を交互に切り換える冷風供給装置。 A Peltier element (4) having a heat radiating part (4a) that radiates heat and a heat absorbing part (4b) that absorbs heat when controlled in a predetermined energized state;
A heat exchanging part (3) for heat dissipation, which is provided so as to be able to transfer heat to the heat dissipating part and exchanges heat with the passing air;
A cold storage part (5) provided in the container (5a) so as to be capable of transferring heat to the heat absorption part by accommodating the cold storage material (5b);
A heat exchanging part (106) for cooling, which is provided so as to be able to transfer heat to the cold storage part and exchanges heat with the passing air;
A first blower (101) capable of blowing air to the heat-dissipating heat exchange unit;
A second blower (9) capable of blowing air to the cooling heat exchange section;
A control device (50) for controlling energization to the Peltier element and controlling the operation of the first fan and the operation of the second fan;
With
The heat exchanger for cooling is a plurality of plate-like members standing from the heat exchanger for cooling to be provided so as to be able to transfer heat to the heat absorbing portion, and fins for exchanging heat with the passing air ( 106a), the cold storage material is accommodated in the fin,
The controller is
The Peltier element is controlled to the predetermined energized state, and air is not blown by the second blower but is blown to the heat radiating heat exchanging portion by the first blower, absorbs heat from the heat sink and cools the heat storage material. Cold storage mode to store,
A cooling mode in which the Peltier element is controlled to the predetermined energized state and blown to the heat-dissipating heat exchange unit by the first blower and blown to the cooling heat-exchange unit by the second blower,
Cold air supply device that switches alternately .
前記放熱部に対して熱伝達可能に設けられ、通過する空気と熱交換する放熱用熱交換部(3)と、
容器(5a)内に蓄冷材(5b)を収容し前記吸熱部に対して熱伝達可能に設けられた蓄冷部(5)と、
前記蓄冷部に対して熱伝達可能に設けられ、通過する空気と熱交換する放冷用熱交換部(6;106)と、
前記放熱用熱交換部および前記放冷用熱交換部に対して送風可能な送風機(1)と、
前記放冷用熱交換部を通過する空気が流れる放冷用通路(23)を遮断する状態と開放する状態とにわたって切り換え可能な通風切換装置(7,8)と、
前記送風機の作動と前記通風切換装置の作動とを制御する制御装置(50)と、
を備え、
前記制御装置は、前記蓄冷材、前記放冷用熱交換部、前記蓄冷部の容器および前記吸熱部のいずれかについて検出した検出温度が、前記蓄冷材の融点よりも高い温度に設定された第1閾値以下に低下すると前記放冷用熱交換部に対する送風を開始し、前記検出温度が、前記第1閾値よりも所定温度高い温度に設定された第2閾値以上に上昇すると前記放冷用熱交換部への送風を停止する冷風供給装置。 A Peltier element (4) having a heat radiating part (4a) that radiates heat and a heat absorbing part (4b) that absorbs heat when controlled in a predetermined energized state;
A heat exchanging part (3) for heat dissipation, which is provided so as to be able to transfer heat to the heat dissipating part and exchanges heat with the passing air;
A cold storage part (5) provided in the container (5a) so as to be capable of transferring heat to the heat absorption part by accommodating the cold storage material (5b);
A heat exchanging section (6; 106) for cooling, which is provided so as to be able to transfer heat to the cold storage section and exchanges heat with the passing air;
A blower (1) capable of blowing air to the heat-dissipating heat exchange part and the cooling heat-exchange part;
A ventilation switching device (7, 8) capable of switching between a state where the cooling passage (23) through which the air passing through the cooling heat exchange section flows is shut off and a state where the passage is opened;
A control device (50) for controlling the operation of the blower and the operation of the ventilation switching device;
With
The control device is configured such that a detected temperature detected for any one of the cool storage material, the cooling heat exchange unit, the cool storage unit container, and the heat absorption unit is set to a temperature higher than the melting point of the cool storage material. When the temperature falls below one threshold value, air blowing to the cooling heat exchange unit is started, and when the detected temperature rises above a second threshold value set to a temperature higher than the first threshold value by a predetermined temperature, the heat for cooling temperature is raised. A cold air supply device that stops air blowing to the exchange unit .
前記放熱部に対して熱伝達可能に設けられ、通過する空気と熱交換する放熱用熱交換部(3)と、
容器(5a)内に蓄冷材(5b)を収容し前記吸熱部に対して熱伝達可能に設けられた蓄冷部(5)と、
前記蓄冷部に対して熱伝達可能に設けられ、通過する空気と熱交換する放冷用熱交換部(6;106)と、
前記放熱用熱交換部に対して送風可能な第1送風機(101)と、
前記放冷用熱交換部に対して送風可能な第2送風機(9)と、
前記ペルチェ素子への通電を制御し、前記第1送風機の作動および前記第2送風機の作動を制御する制御装置(50)と、
を備え、
前記制御装置は、
前記ペルチェ素子を前記所定の通電状態に制御し、かつ前記第2送風機による送風を行わず前記第1送風機によって前記放熱用熱交換部に送風し、前記吸熱部から吸熱して蓄熱材に冷熱を蓄える蓄冷モードと、
前記ペルチェ素子を前記所定の通電状態に制御し、かつ前記第1送風機によって前記放熱用熱交換部に送風するとともに前記第2送風機によって前記放冷用熱交換部に送風する放冷モードと、
を交互に切り換え、
前記制御装置は、前記蓄冷材、前記放冷用熱交換部、前記蓄冷部の容器および前記吸熱部のいずれかについて検出した検出温度が、前記蓄冷材の融点よりも高い温度に設定された第1閾値以下に低下すると前記放冷用熱交換部に対する送風を開始し、前記検出温度が、前記第1閾値よりも所定温度高い温度に設定された第2閾値以上に上昇すると前記放冷用熱交換部への送風を停止する冷風供給装置。 A Peltier element (4) having a heat radiating part (4a) that radiates heat and a heat absorbing part (4b) that absorbs heat when controlled in a predetermined energized state;
A heat exchanging part (3) for heat dissipation, which is provided so as to be able to transfer heat to the heat dissipating part and exchanges heat with the passing air;
A cold storage part (5) provided in the container (5a) so as to be capable of transferring heat to the heat absorption part by accommodating the cold storage material (5b);
A heat exchanging section (6; 106) for cooling, which is provided so as to be able to transfer heat to the cold storage section and exchanges heat with the passing air;
A first blower (101) capable of blowing air to the heat-dissipating heat exchange unit;
A second blower (9) capable of blowing air to the cooling heat exchange section;
A control device (50) for controlling energization to the Peltier element and controlling the operation of the first fan and the operation of the second fan;
With
The controller is
The Peltier element is controlled to the predetermined energized state, and air is not blown by the second blower but is blown to the heat radiating heat exchanging portion by the first blower, absorbs heat from the heat sink and cools the heat storage material. Cold storage mode to store,
A cooling mode in which the Peltier element is controlled to the predetermined energized state and blown to the heat-dissipating heat exchange unit by the first blower and blown to the cooling heat-exchange unit by the second blower,
Alternately
The control device is configured such that a detected temperature detected for any one of the cool storage material, the cooling heat exchange unit, the cool storage unit container, and the heat absorption unit is set to a temperature higher than the melting point of the cool storage material. When the temperature falls below one threshold value, air blowing to the cooling heat exchange unit is started, and when the detected temperature rises above a second threshold value set to a temperature higher than the first threshold value by a predetermined temperature, the heat for cooling temperature is raised. A cold air supply device that stops air blowing to the exchange unit .
前記制御装置は、前記ペルチェ素子を前記所定の通電状態に制御しかつ前記放冷用熱交換部に対する送風の停止中に、前記振動装置を運転して前記放冷用熱交換部に振動を与える請求項1から請求項7のいずれか一項に記載の冷風供給装置。 A vibration device (53) that vibrates the heat exchanger for cooling;
The control device controls the Peltier element to the predetermined energized state, and operates the vibration device to apply vibration to the cooling heat exchanger while the air blowing to the cooling heat exchanger is stopped. The cold wind supply apparatus as described in any one of Claims 1-7.
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JP2016069319A JP6493273B2 (en) | 2016-03-30 | 2016-03-30 | Cold air supply device |
PCT/JP2017/006972 WO2017169376A1 (en) | 2016-03-30 | 2017-02-24 | Cold-air supplying apparatus |
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JP2016069319A JP6493273B2 (en) | 2016-03-30 | 2016-03-30 | Cold air supply device |
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JP2019188989A (en) * | 2018-04-24 | 2019-10-31 | 株式会社デンソー | Cold air supply device |
KR102611141B1 (en) * | 2018-11-27 | 2023-12-08 | 엘지전자 주식회사 | Air cleaner module including thermoelectric module |
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JPH0285010A (en) * | 1988-06-25 | 1990-03-26 | Nippon Denso Co Ltd | Cooling device |
JPH037617A (en) * | 1989-06-02 | 1991-01-14 | Mazda Motor Corp | Electronic cooling system |
JPH0677819U (en) * | 1993-04-09 | 1994-11-01 | エヌオーケー株式会社 | Dehumidifier |
JPH07260186A (en) * | 1994-03-23 | 1995-10-13 | Aisin Seiki Co Ltd | Cold air apparatus |
JPH07260188A (en) * | 1994-03-24 | 1995-10-13 | Aisin Seiki Co Ltd | Cold storage type cold air apparatus with peliier device |
US5901572A (en) * | 1995-12-07 | 1999-05-11 | Rocky Research | Auxiliary heating and air conditioning system for a motor vehicle |
JP5507067B2 (en) * | 2008-09-11 | 2014-05-28 | 株式会社デンソー | Vehicle air conditioning system |
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