JP4062774B2 - Heat storage hot air - Google Patents

Heat storage hot air Download PDF

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Publication number
JP4062774B2
JP4062774B2 JP19120298A JP19120298A JP4062774B2 JP 4062774 B2 JP4062774 B2 JP 4062774B2 JP 19120298 A JP19120298 A JP 19120298A JP 19120298 A JP19120298 A JP 19120298A JP 4062774 B2 JP4062774 B2 JP 4062774B2
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JP
Japan
Prior art keywords
hot air
heat storage
air outlet
movable
heat
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
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JP19120298A
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Japanese (ja)
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JP2000018726A (en
Inventor
裕幸 鈴木
邦男 荻田
至 円口
宏明 藤井
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Panasonic Corp
Panasonic Holdings Corp
Original Assignee
Panasonic Corp
Matsushita Electric Industrial Co Ltd
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Filing date
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Priority to JP19120298A priority Critical patent/JP4062774B2/en
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Description

【0001】
【発明の属する技術分野】
本発明は、蓄熱部材に蓄熱された熱で温風をつくり暖房を行うようにした蓄熱温風機に関する。
【0002】
【従来の技術】
従来のこの種蓄熱温風機を図6により説明する。蓄熱部材21と、この蓄熱部材21を加熱して蓄熱させ、空気を温風に加熱する高温ふく射ヒータ22と、蓄熱部材21の蓄熱量で空気を温風に熱交換するために設けた蓄熱通風路23と、蓄熱通風路23を断熱するための断熱部材24と、蓄熱通風路23に空気を送り込むための送風機25と、高温ふく射ヒータ22、送風機25を制御する制御部(図示せず)と、床面と略水平あるいは略垂直な固定式整流板27を有した温風吹出口26とから構成されていた。
【0003】
上記構成において、蓄熱部材21に蓄熱する場合は制御部が高温ふく射ヒータ22に通電して、そのふく射熱により蓄熱部材21を加熱し、蓄熱させていた。
【0004】
次に温風熱交換は制御部が高温ふく射ヒータ22と送風機25に通電し、送風機25で蓄熱通風路23に空気が送られ蓄熱部材21により加熱され、高温ふく射ヒータ22でも加熱されて固定式整流板27を有した温風吹出口26より吹き出していた。
【0005】
また、蓄熱部材21が蓄熱されていない場合は、送風機25により蓄熱通風路23に送られた空気は高温ふく射ヒータ22でのみ加熱され固定式整流板27を有した温風吹出口26より吹き出していた。
【0006】
【発明が解決しようとする課題】
しかしながら部屋暖房を行うために強い温風を吹き出す蓄熱温風機において、整流板が固定式の場合、温風吹出口より吹き出す温風の風向を変更できないので強い温風を特定の方向や、より遠くに送ることができず、暖められる範囲は限定されるため使用人数や使用状況にあった効率的な暖房ができないという問題があった。
【0007】
また、可動式整流板を有し、温風の風向を変更可能なものでも、それぞれ隣接する可動式整流板の間隔が温風風下側で可動式整流板の回動支軸間より狭くなる場合は圧損等が生じるため温風の吹出し効率が悪くなるという問題があった。
【0008】
そのため、圧損の影響を減少させるために各可動式整流板間の間隔を大きく広げたり、可動式整流板の回動量を少なくしなければならず、温風の風向を細かく制御できなかった。
【0009】
そこで、本発明では温風をより遠くまで送ることができ、効率よく使用条件に適した細かい温風の風向制御が可能な蓄熱温風機を提供することを課題とする。
【0010】
【課題を解決するための手段】
上記課題を解決するために、本発明の蓄熱温風機は、前面下部に温風吹出口を有する本体と、この本体に内設され、熱源により加熱されて蓄熱する蓄熱部材と、前記蓄熱部材に空気を通して温風となし、前記温風吹出口より吹出させる送風機と、運転モードに応じて前記熱源手段および送風機を制御する制御部と、前記温風吹出口に配置され、その温風吹出口からの温風吹出し方向を変えるために左右に回動可能で、かつ床面と略垂直方向に配設された複数枚の可動式整流板とを具備し、前記複数枚の可動式整流板は風上側がそれぞれ軸支されるとともに、反対側の風下側側面からは隣接した可動式整流板に当接するアーム部をそれぞれ突設し、前記複数枚の可動式整流板を左右方向に回動させた場合に、これら整流板の風下側間隔をアーム部の長さを基準とした値に保持するようにしたものである。
【0011】
【発明の実施の形態】
本発明は、前面下部に温風吹出口を有する本体と、この本体に内設され、熱源により加熱されて蓄熱する蓄熱部材と、前記蓄熱部材に空気を通して温風となし、前記温風吹出口より吹出させる送風機と、運転モードに応じて前記熱源手段および送風機を制御する制御部と、前記温風吹出口に配置され、その温風吹出口からの温風吹出し方向を変えるために左右に回動可能で、かつ床面と略垂直方向に配設された複数枚の可動式整流板とを具備し、前記複数枚の可動式整流板は風上側がそれぞれ軸支されるとともに、反対側の風下側側面からは隣接した可動式整流板に当接するアーム部をそれぞれ突設し、前記複数枚の可動式整流板を左右方向に回動させた場合に、これら整流板の風下側間隔をアーム部の長さを基準とした値に保持するようにしたもので、これにより温風をより遠くまで送ることができる。
【0012】
【実施例】
以下、本発明の実施例について図面を参照しながら説明する。
【0013】
(実施例1)
図1〜3は蓄熱温風機に実施したもので、1は蓄熱するための蓄熱部材であり、2はこの蓄熱部材1を加熱して蓄熱させ、空気を温風に加熱するための高温ふく射ヒータである。
【0014】
蓄熱部材1に蓄積した熱も空気を温風に熱交換するために使用される。
【0015】
高温ふく射ヒータ2を内部に設けた蓄熱通風路3が蓄熱部材1の周りに構成されており、蓄熱通風路3を断熱するための断熱部材4が蓄熱通風路3の周りに構成されている。
【0016】
5は蓄熱通風路に空気を送り込むための送風機、6は温風吹出口で、床面と略垂直な6枚の可動式整流板8と床面と略水平な4枚の固定式整流板7から構成されている。
【0017】
図2に示すように、各可動式整流板8にはそれぞれ隣接する可動式整流板8と一定の距離を保つためのアーム部8a、8bが左右に設けられ、それぞれが回動した場合、図3のように隣接する可動式整流板8との間隔が温風風下側で可動式整流板8の回動支軸間と略同等または広くなるように構成されている。
【0018】
次に動作について説明する。
【0019】
蓄熱部材1に蓄熱する場合は制御部(図示せず)が高温ふく射ヒータ2に通電して、そのふく射熱により蓄熱部材1を加熱し蓄熱する。
【0020】
暖房時には蓄熱が成されている場合、温風熱交換は制御部が高温ふく射ヒータ2と送風機5に通電し、送風機5で蓄熱通風路3に空気が送られ蓄熱された蓄熱部材1により加熱され、高温ふく射ヒータ2でも加熱されて、それぞれ回動された可動式整流板8により方向規制された温風が温風吹出口6より遠くの範囲まで吹き出す。
【0021】
また、蓄熱部材1が蓄熱されていない場合は、送風機5により蓄熱通風路3に送られた空気は高温ふく射ヒータ2でのみ加熱されてそれぞれ回動された可動式整流板8により方向規制された温風が温風吹出口6より遠くの範囲まで吹き出す。
【0022】
前記したように、可動式整流板8にはその左右方向にアーム部8a、8bが形成してあるため、可動式整流板8を左右方向に回動したとき、それら軸支部位での間隔(可動式整流板側面に垂直な間隔)は小さくなるが、風下側ではアーム部8a、8bの長さに相当する間隔に保たれることとなり、その分通気抵抗が小さくなり、遠くまで温風がいきわたることなる。
【0023】
(参考実施例)
図4は温風吹出口部分の斜視図で6は温風吹出口で床面と略垂直な6枚の可動式整流板9a〜9fと、可動式整流板9a、9b、9cの3枚を同時に駆動するL側レバー10と可動式整流板9d、9e、9fの3枚を同時に駆動するR側レバー11から構成されている。
【0024】
また、L側レバー10により回動される各可動式整流板9a、9b、9cはそれぞれが略平行になるようにL側レバー10に配設され、R側レバー11により回動される各可動式整流板9d、9e、9fはそれぞれが略平行になるようにR側レバー11に配設されている。
【0025】
また、隣接し合うL側レバー10により回動している可動式整流板9cとR側レバー11により回動している可動式整流板9dとの間隔が温風風下側で可動式整流板9c、9dの回動支軸間より狭くならないようにL側レバー10とR側レバー11のそれぞれの端部10a,11aが当接するように構成されている。
【0026】
このため蓄熱通風路3で加熱された空気は図5のようL側レバー10またはR側レバー11で回動された可動式整流板9a〜9fにより方向規制され、圧損等を生じることなく温風吹出口より遠くの範囲まで吹き出し、同時に使用者の意図する方向に吹き出す。
【0027】
【発明の効果】
以上の説明から明らかなように本発明の蓄熱温風機によれば、温風吹出口に左右に回動可能で床面と略垂直方向に配設された複数枚の可動式整流板において、それぞれ隣接する前記可動式整流板との間隔が温風風下側で回動支軸間と略同等または広くなるように構成したことで、前記可動式整流板間の圧損を抑えることができ、温風をより遠くの範囲まで届けることができる。
【0028】
さらに、温風を左右全体に広げたり、左、前方、右の各方向に細かく風向制御ができるので使用人数や使用状況にあった効率的な暖房を行うことができる。
【図面の簡単な説明】
【図1】 本発明の実施例1の全体構成の概略を示す部分断面斜視図
【図2】 同装置の温風吹出口部分の斜視図
【図3】 (a)同装置の可動式整流板の動作説明図
(b)同動作説明図
(c)同動作説明図
(d)同動作説明図
【図4】 本発明の参考実施例を示す温風吹出口部分の斜視図
【図5】 (a)参考実施例の可動式整流板の動作説明図
(b)同動作説明図
(c)同動作説明図
(d)同動作説明図
【図6】 従来例の全体構成の概略を示す部分断面斜視図
【符号の説明】
1 蓄熱部材
2 高温ふく射ヒータ
3 蓄熱通風路
4 断熱部材
5 送風機
6 温風吹出口
7 固定式整流板
8 可動式整流板
[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a heat storage hot air heater that performs heating by generating hot air with heat stored in a heat storage member .
[0002]
[Prior art]
This conventional seed heat storage hot air machine will be described with reference to FIG. A heat storage member 21, a high-temperature radiation heater 22 that heats and stores the heat storage member 21 by heating the heat storage member 21, and heat storage ventilation provided for heat exchange of the air to the warm air by the heat storage amount of the heat storage member 21 A path 23, a heat insulating member 24 for insulating the heat storage ventilation path 23, a blower 25 for sending air into the heat storage ventilation path 23, a high-temperature radiation heater 22, and a control unit (not shown) for controlling the blower 25. The warm air outlet 26 has a fixed rectifying plate 27 that is substantially horizontal or substantially perpendicular to the floor surface.
[0003]
In the above configuration, when the heat storage member 21 stores heat, the controller energizes the high-temperature radiant heater 22 and heats the heat storage member 21 with the radiant heat to store the heat.
[0004]
Next, in the hot air heat exchange, the control unit energizes the high-temperature radiation heater 22 and the blower 25, the air is sent to the heat storage air passage 23 by the blower 25, is heated by the heat storage member 21, and is also heated by the high-temperature radiation heater 22 and is fixed. The air was blown out from the hot air outlet 26 having the rectifying plate 27.
[0005]
When the heat storage member 21 is not stored, the air sent to the heat storage ventilation path 23 by the blower 25 was heated only by the high-temperature radiation heater 22 and was blown out from the hot air outlet 26 having the fixed rectifying plate 27. .
[0006]
[Problems to be solved by the invention]
However, in a regenerative hot air blower that blows out strong warm air for room heating, if the rectifying plate is fixed, the direction of the warm air blown out from the hot air outlet cannot be changed, so strong hot air can be moved in a specific direction or further away. Since it cannot be sent and the range to be warmed is limited, there is a problem in that it cannot perform efficient heating according to the number of users and usage conditions.
[0007]
Also, even if there is a movable rectifier plate and the direction of the warm air can be changed, the distance between adjacent movable rectifier plates is narrower than the space between the rotating support shafts of the movable rectifier plate on the lower side of the hot air However, there is a problem that the efficiency of blowing hot air deteriorates due to pressure loss.
[0008]
For this reason, in order to reduce the influence of pressure loss, the distance between the movable rectifying plates must be widened or the amount of rotation of the movable rectifying plates must be reduced, and the wind direction of the warm air cannot be finely controlled.
[0009]
Therefore, an object of the present invention is to provide a heat storage hot air fan that can send hot air farther and can efficiently control the direction of fine hot air suitable for use conditions.
[0010]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, a heat storage hot air fan of the present invention includes a main body having a warm air outlet at the lower front portion, a heat storage member that is installed in the main body and is heated by a heat source to store heat, and air is supplied to the heat storage member. There is no hot air through, a blower that blows out from the hot air outlet, a control unit that controls the heat source means and the blower according to the operation mode, and a hot air outlet from the hot air outlet that is arranged in the hot air outlet A plurality of movable rectifying plates that are pivotable to the left and right to change the direction and are arranged substantially perpendicular to the floor surface. while being supported, when rotated in the movable current plate adjacent from leeward side opposite the arm portion abuts each projecting, said plurality of movable current plate in the lateral direction, these Arm the leeward distance of the current plate The length of the is obtained so as to hold the value based.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
The present invention includes a main body having a hot air outlet at the lower front portion, a heat storage member that is installed in the main body and stores heat by being heated by a heat source , and hot air is passed through the heat storage member to blow out from the hot air outlet. A blower, a control unit that controls the heat source means and the blower according to the operation mode, and a hot air outlet that is disposed in the hot air outlet, and is capable of rotating to the left and right to change the hot air outlet direction from the hot air outlet. And a plurality of movable rectifying plates disposed substantially perpendicular to the floor surface, and the plurality of movable rectifying plates are respectively supported on the windward side and from the leeward side surface on the opposite side. When the arm portions that abut against the adjacent movable rectifying plates are respectively protruded and the plurality of movable rectifying plates are rotated in the left-right direction, the leeward side spacing of these rectifying plates is the length of the arm portion. To keep the value relative to As hereinbefore, it can be transmitted thereby farther warm air.
[0012]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
[0013]
Example 1
1 to 3 are implemented in a heat storage hot air machine, 1 is a heat storage member for storing heat, 2 is a high temperature radiant heater for heating the heat storage member 1 to store heat and heating the air to warm air. It is.
[0014]
The heat accumulated in the heat storage member 1 is also used for exchanging heat from the air to warm air.
[0015]
A heat storage ventilation path 3 provided with a high-temperature radiant heater 2 is formed around the heat storage member 1, and a heat insulating member 4 for insulating the heat storage ventilation path 3 is formed around the heat storage ventilation path 3.
[0016]
5 is a blower for sending air into the heat storage ventilation path, and 6 is a warm air outlet, which is composed of six movable rectifying plates 8 substantially perpendicular to the floor and four fixed rectifying plates 7 substantially horizontal to the floor. It is configured.
[0017]
As shown in FIG. 2, each movable rectifying plate 8 is provided with left and right arm portions 8a and 8b for maintaining a certain distance from the adjacent movable rectifying plate 8, and when each is rotated, As shown in FIG. 3, the distance between adjacent movable rectifying plates 8 is substantially the same as or wider than the distance between the pivot shafts of the movable rectifying plates 8 on the leeward side of the hot air.
[0018]
Next, the operation will be described.
[0019]
When storing heat in the heat storage member 1, a control unit (not shown) energizes the high-temperature radiant heater 2, and heats the heat storage member 1 by the radiant heat to store heat.
[0020]
When heat storage is performed at the time of heating, the hot air heat exchange is heated by the heat storage member 1 in which the control unit energizes the high-temperature radiant heater 2 and the blower 5, and air is sent to the heat storage ventilation path 3 by the blower 5. Also, the hot air heated by the high-temperature radiation heater 2 is blown out to a range farther from the hot air outlet 6 while the direction of the air is regulated by the rotated movable rectifying plate 8.
[0021]
Moreover, when the heat storage member 1 is not storing heat, the air sent to the heat storage ventilation path 3 by the blower 5 is heated only by the high-temperature radiation heater 2, and the direction is regulated by the movable rectifying plate 8 that is rotated respectively. Hot air blows out to a range far from the hot air outlet 6.
[0022]
As described above, since the movable rectifying plate 8 is formed with the arm portions 8a and 8b in the left and right direction, when the movable rectifying plate 8 is rotated in the left and right direction, the distance between the pivot support parts ( The interval perpendicular to the side of the movable rectifying plate) is small, but on the leeward side, the interval corresponding to the length of the arm portions 8a and 8b is maintained, and the ventilation resistance is reduced accordingly, and the warm air is far away. It ’s going to happen.
[0023]
(Reference Example)
FIG. 4 is a perspective view of the hot air outlet, and 6 is a hot air outlet, which simultaneously drives three movable rectifying plates 9a to 9f, which are substantially perpendicular to the floor, and movable rectifying plates 9a, 9b and 9c. The L-side lever 10 and the R-side lever 11 that simultaneously drives the three movable rectifying plates 9d, 9e, and 9f.
[0024]
The movable rectifying plates 9 a, 9 b, 9 c that are rotated by the L-side lever 10 are disposed on the L-side lever 10 so as to be substantially parallel to each other, and each movable that is rotated by the R-side lever 11. The type rectifying plates 9d, 9e, 9f are arranged on the R-side lever 11 so as to be substantially parallel to each other.
[0025]
Further, the distance between the movable rectifying plate 9c rotated by the adjacent L-side lever 10 and the movable rectifying plate 9d rotated by the R-side lever 11 is such that the movable rectifying plate 9c is on the lower side of the hot air. The end portions 10a and 11a of the L-side lever 10 and the R-side lever 11 are in contact with each other so as not to be narrower than between the pivot shafts of 9d.
[0026]
For this reason, the direction of air heated by the heat storage air passage 3 is restricted by the movable rectifying plates 9a to 9f rotated by the L-side lever 10 or the R-side lever 11, as shown in FIG. Blow out to a range far from the exit, and blow out in the direction intended by the user.
[0027]
【The invention's effect】
As is clear from the above description, according to the heat storage hot air fan of the present invention, in the plurality of movable rectifying plates that are turnable to the left and right at the hot air outlet and arranged substantially perpendicular to the floor surface, they are adjacent to each other. The gap between the movable rectifying plate and the movable rectifying plate is configured so that the distance between the movable rectifying plate is substantially the same as or wider than that between the rotating support shafts on the lower side of the hot air. It can be delivered to a farther range.
[0028]
Furthermore, since the warm air can be spread over the entire left and right, and the wind direction can be finely controlled in each of the left, front, and right directions, efficient heating can be performed in accordance with the number of users and usage conditions.
[Brief description of the drawings]
FIG. 1 is a partial cross-sectional perspective view showing an outline of the overall configuration of Embodiment 1 of the present invention. FIG. 2 is a perspective view of a hot air outlet portion of the apparatus. FIG. Operation explanatory diagram (b) Operation explanatory diagram (c) Operation explanatory diagram (d) Operation explanatory diagram [FIG. 4] A perspective view of a hot air outlet portion showing a reference embodiment of the present invention [FIG. 5] (a) (B) Same operation explanatory diagram (c) Same operation explanatory diagram (d) Same operation explanatory diagram [FIG. 6] Partial cross-sectional perspective view showing an outline of the entire configuration of the conventional example. [Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Heat storage member 2 High temperature radiation heater 3 Heat storage ventilation path 4 Heat insulation member 5 Blower 6 Hot air blower outlet 7 Fixed type rectifying plate 8 Movable type rectifying plate

Claims (1)

前面下部に温風吹出口を有する本体と、この本体に内設され、熱源により加熱されて蓄熱する蓄熱部材と、前記蓄熱部材に空気を通して温風となし、前記温風吹出口より吹出させる送風機と、運転モードに応じて前記熱源手段および送風機を制御する制御部と、前記温風吹出口に配置され、その温風吹出口からの温風吹出し方向を変えるために左右に回動可能で、かつ床面と略垂直方向に配設された複数枚の可動式整流板とを具備し、前記複数枚の可動式整流板は風上側がそれぞれ軸支されるとともに、反対側の風下側側面からは隣接した可動式整流板に当接するアーム部をそれぞれ突設し、前記複数枚の可動式整流板を左右方向に回動させた場合に、これら整流板の風下側間隔をアーム部の長さを基準とした値に保持するようにした蓄熱温風機A main body having a warm air outlet at the lower front portion, a heat storage member that is installed in the main body and is stored by being heated by a heat source , and a blower that blows air from the hot air outlet through the heat storage member by passing air through the air; A control unit that controls the heat source means and the blower according to an operation mode, and is arranged at the hot air outlet, is rotatable to the left and right to change the hot air outlet direction from the hot air outlet, and the floor surface A plurality of movable rectifying plates arranged in a substantially vertical direction, wherein the plurality of movable rectifying plates are respectively supported on the windward side and adjacent to each other from the opposite leeward side surface. When the arm portions that contact the rectifying plate are respectively protruded and the plurality of movable rectifying plates are rotated in the left-right direction, the leeward side interval of these rectifying plates is based on the length of the arm portion. Heat storage temperature that is kept at the value Machine.
JP19120298A 1998-07-07 1998-07-07 Heat storage hot air Expired - Fee Related JP4062774B2 (en)

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JP19120298A JP4062774B2 (en) 1998-07-07 1998-07-07 Heat storage hot air

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Application Number Priority Date Filing Date Title
JP19120298A JP4062774B2 (en) 1998-07-07 1998-07-07 Heat storage hot air

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JP2000018726A JP2000018726A (en) 2000-01-18
JP4062774B2 true JP4062774B2 (en) 2008-03-19

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4735656U (en) * 1971-05-18 1972-12-20
JPS5172957U (en) * 1974-12-06 1976-06-08
JPH078260Y2 (en) * 1989-08-23 1995-03-01 豊田合成株式会社 Air conditioning grill
JPH0611180A (en) * 1992-06-25 1994-01-21 Nippon Plast Co Ltd Air diffuser device
JP2682340B2 (en) * 1992-08-07 1997-11-26 豊田合成株式会社 Outlet grill
JPH10132385A (en) * 1996-10-31 1998-05-22 Matsushita Electric Ind Co Ltd Electrical hot air heater

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