JPH027054Y2 - - Google Patents

Description

【考案の詳細な説明】 ［産業上の利用分野］ この考案は自動車用ウインドガラスなど傾斜壁
面に対して、傾斜して空気を吹出される型式の空
気吹出し口本体、例えば、自動車のインストルメ
ントパネル上面等に配設されウインドガラス面に
空気を吹出す偏平な空気吹出し口本体の構造に関
する。[Detailed description of the invention] [Industrial application field] This invention is applied to an air outlet main body of the type that blows air at an angle to an inclined wall surface such as an automobile window glass, for example, an automobile instrument panel. This invention relates to the structure of a flat air outlet body that is disposed on the top surface or the like and blows air out onto the window glass surface.

［従来技術］ 従来、自動車等車両の室内への冷房空気および
ウインドガラスの防湿や暖房用の偏平な空気吹出
し口本体は、インストルメントパネル上面に取付
けられている。[Prior Art] Conventionally, a flat air outlet body for supplying cooling air into the interior of a vehicle such as an automobile and for moisture-proofing and heating a windshield is attached to the upper surface of an instrument panel.

従来、インストルメントパネル壁面よりウイン
ドガラス面に対して傾斜して空気を吹出す空気吹
出口本体の構造については、実公昭57−17241号
公報にて公知である。 Conventionally, the structure of an air outlet body that blows out air from an instrument panel wall surface at an angle with respect to a window glass surface is known from Japanese Utility Model Publication No. 57-17241.

しかし、この従来技術には、つぎに述べるごと
き問題点があつた。 However, this conventional technique has the following problems.

(1) 空気の吹付け方向に係わり、空気吹き出し口
本体のフインが可動式になつていて、可変方式
であるにしても、フインの回動範囲が狭くて、
前方ウインドガラス等の傾斜角ガラス壁面への
限定された位置より、任意な吹出し空気流れが
前方または、斜め上方向に吹付けることが、困
難である。(1) The fins on the air outlet body are movable in relation to the direction of air blowing, and even if it is a variable type, the rotation range of the fins is narrow;
Due to the limited position on the inclined glass wall surface of the front window glass, it is difficult to blow any desired air flow forward or diagonally upward.

(2) さらに、空気の吹付け方向に係わり、ここで
の吹出し空気流れが前方ウインドガラスのガラ
ス壁面の限定された下側位置より、傾斜壁面と
対峙して乗員の制御の可能性がないこと、 (3) 自動車等の前方ウインドガラスへの傾斜角の
ガラス壁面と、対峙さすにしても、空気吹出し
口本体の成形型の修正によつて、もたらされる
空気吹出し口本体の従来の成形型の修正は、最
少に限定し得るものであつて、このような修正
による最適空気の迅速・供給の可能性の付与な
どが希求されていた。(2) Furthermore, regarding the direction of air blowing, the blowing air flow here is from the limited lower position of the glass wall of the front windshield, and there is no possibility of occupant control as it faces the inclined wall surface. , (3) Even if it is faced with the glass wall surface of the front windshield of an automobile, etc., the conventional molding die of the air outlet body is brought about by modification of the molding die of the air outlet body. Modifications can be limited to a minimum, and it has been desired to provide the possibility of quickly supplying optimal air through such modifications.

［考案の目的］ この考案は、上記のごとき、従来の欠点を解決
するために、あらかじめ、流れ傾斜方向側の空気
吹出口縁に、一体的に組み込んだ、内向き前傾斜
板と外向き後傾斜板の双方の吹出し口縁の向きを
交互に配設し、吹出し口縁の傾斜板からの吹出し
を所定の広い範囲に無駄なく変向でき、それに暖
房用の空気を適温の範囲内に、制御せしめること
が可能なようにした空気吹出し口本体の構造を提
供することを目的とするものである。[Purpose of the invention] In order to solve the above-mentioned drawbacks of the conventional technology, this invention has an inwardly facing front inclined plate and an outwardly facing rear plate which are integrated into the edge of the air outlet on the side of the flow inclination. By arranging the directions of the edges of both outlets of the inclined plates alternately, the air from the inclined plates of the edges of the outlets can be directed to a predetermined wide range without waste, and the air for heating can be kept within an appropriate temperature range. It is an object of the present invention to provide a structure of an air outlet body that can be controlled.

［考案の構成］ すなわち、この考案の自動車用の空気吹出し口
構造の要旨とするところは、インストルメントパ
ネル壁面よりガラス面に対して傾斜して空気を吹
出す偏平な空気吹出し口において、この空気吹出
し口縁の内側に空気の流れ方向とは傾斜する内向
き前傾斜板と外向き後傾斜板を交互に配設し、こ
れら傾斜板を瀬切り板により区画し、これら前傾
斜板あるいは後傾斜板と瀬切り板と空気吹出し口
本体の前板あるいは後板とで吹出し口ノズルを形
成し、このノズルを空気吹出し口縁の内部で相互
に連通したことにある。また、空気吹出し口本体
の上縁を平滑面とし、この空気吹出し口に開口す
るノズルを千鳥形状に配置し、このノズルを前傾
斜板と外向き後傾斜板と両側の瀬切り板とで矩形
断面に形成したことにある。[Structure of the invention] In other words, the gist of the air outlet structure for automobiles of this invention is that the flat air outlet blows air from the instrument panel wall surface at an angle to the glass surface. On the inside of the outlet edge, inwardly facing forwardly inclined plates and outwardly facing backwardly inclined plates which are inclined with respect to the air flow direction are arranged alternately, and these inclined plates are divided by cut-off plates, and these forwardly inclined plates or backwardly inclined plates are arranged alternately. The plate, the cutting plate, and the front or rear plate of the air outlet body form an outlet nozzle, and the nozzles are communicated with each other inside the edge of the air outlet. In addition, the upper edge of the air outlet body is made a smooth surface, and the nozzles that open to this air outlet are arranged in a staggered shape, and the nozzles are formed into a rectangular shape by a front inclined plate, an outwardly facing rear inclined plate, and a cutout plate on both sides. This is because it is formed in the cross section.

［実施例］ 以下、この考案の自動車用ウインドガラスなど
傾斜壁面に対して、傾斜して空気を吹出される型
式の空気吹出し口、例えば、自動車のインストル
メントパネル上面に配設されている空気吹出し口
本体の実施例について、図面にもとづき説明す
る。[Example] Hereinafter, an air outlet of the present invention that blows air obliquely to an inclined wall surface such as an automobile window glass, for example, an air outlet disposed on the top surface of an automobile instrument panel will be described. Examples of the mouth body will be described based on the drawings.

まず、第１図ないし第３図はこの考案の第１の
実施例を示すもので、第１図は第１の実施例の空
気吹出し口本体の全体斜視図、第２図は第１図の
Ａ−Ａ矢視線に沿う断面図、第３図は第１図のＢ
−Ｂ矢視線に沿う断面図である。 First of all, FIGS. 1 to 3 show the first embodiment of this invention. FIG. 1 is an overall perspective view of the air outlet body of the first embodiment, and FIG. 2 is the same as that of FIG. A cross-sectional view taken along the arrow line A-A, Figure 3 is B in Figure 1.
-B is a sectional view taken along the arrow line.

さらに、第４図ないし第６図はこの考案の第２
の実施例を示すもので、第４図は第２の実施例の
空気吹出し口本体の全体斜視図、第５図は第４図
のＣ−Ｃ矢視線に沿う断面図、第６図は第４図の
Ｄ−Ｄ矢視線に沿う断面図、第７図は両実施例の
空気吹出し口とウインドガラスの傾斜壁面との関
係を示す要部断面図である。 Furthermore, Figures 4 to 6 show the second part of this invention.
4 is an overall perspective view of the air outlet main body of the second embodiment, FIG. 5 is a cross-sectional view taken along the line C--C in FIG. 4, and FIG. 4 is a cross-sectional view taken along the line of arrow D-D in FIG. 4, and FIG. 7 is a cross-sectional view of essential parts showing the relationship between the air outlet and the inclined wall surface of the window glass in both embodiments.

図中、１は自動車等のインストルメントパネ
ル、１′はインストルメントパネル１上面に配設
されているウインドガラス壁面、１″は、前記ウ
インドガラス壁面１′への吹付け風の広い所定範
囲の全面、２は、第１図の第１の実施例の全体斜
視図に示すごとき、偏平なる外形形態を具備する
空気吹出し口本体、４は前記空気吹出し口本体２
の空気吹出し口縁、５は前記空気吹出し口本体２
の空気吹出し口上縁、９はこの考案の第１の実施
例の空気吹出し口本体２の内部での連通孔、１０
は空気吹出し口本体２の空気吹出しの供給孔であ
る。 In the figure, 1 is an instrument panel of an automobile, etc., 1' is a window glass wall surface disposed on the top surface of the instrument panel 1, and 1'' is a wide predetermined range of wind blowing onto the window glass wall surface 1'. 2 is an air outlet main body having a flat outer shape as shown in the overall perspective view of the first embodiment in FIG. 1; 4 is the air outlet main body 2;
5 is the air outlet rim, and 5 is the air outlet main body 2.
9 is a communication hole inside the air outlet main body 2 of the first embodiment of this invention; 10 is an upper edge of the air outlet;
is an air blowing supply hole of the air blowing port main body 2.

つぎに、３は、第４図の第２の実施例の全体斜
視図に示すごとき、偏平なる外形形態を具備する
空気吹出し口本体、７は前記空気吹出し口本体３
の空気吹出し上縁口、５′は前記空気吹出し口本
体３の空気吹出し口上縁、７′は交互口開きの縁
取り長方形状の吹出し上縁口、８は前記空気吹出
し口上縁５′の長方形状の平滑面であり、９′は、
同じく、この考案の第２の実施例の空気吹出し口
本体３の内部での連通孔、１０′は同じく、空気
吹出し口本体３の空気吹出しの供給孔である。 Next, reference numeral 3 denotes an air outlet main body having a flat external shape as shown in the overall perspective view of the second embodiment in FIG. 4, and numeral 7 indicates the air outlet main body 3.
5' is the upper edge of the air outlet of the air outlet main body 3, 7' is the upper edge of the air outlet with a rectangular edge with alternating openings, and 8 is the rectangular upper edge of the air outlet 5'. is the smooth surface of , and 9′ is
Similarly, the communication hole 10' inside the air outlet main body 3 of the second embodiment of the present invention is also an air supply hole of the air outlet main body 3.

この考案の第１の実施例において、自動車用の
空気吹出し口本体の構造は、前述のインストルメ
ントパネル１の上面に配設されているウインドガ
ラス壁面１′に対して、傾斜して空気を吹出す偏
平な空気吹出し口本体２でて、この空気吹出し口
上縁５の内側に、空気の流れ方向とは傾斜する内
向き前傾斜板２１と、外向き後傾斜板２２を、交
互に配設してある。そして、これら傾斜板２１，
２２の双方の空気吹出し口上縁５の固定の際いの
向きを、交互になるように配設し、これら傾斜板
２１，２２を瀬切り板２３，２３により区画す
る。それで、この双方の傾斜板２１，２２の各間
隔に数枚の瀬切り板２３，２３を具備せしめたこ
とにより、前傾斜板２１あるいは後傾斜板２２と
瀬切り板２３と、空気吹出し口本体２の前板２′
あるいは後板２″とで吹出し口ノズルを形成して
ある。 In the first embodiment of this invention, the structure of the air outlet main body for an automobile is such that air is blown at an angle with respect to the window glass wall surface 1' disposed on the upper surface of the above-mentioned instrument panel 1. In the flat air outlet main body 2, an inward front inclined plate 21 and an outward backward inclined plate 22, which are inclined with respect to the air flow direction, are arranged alternately inside the upper edge 5 of the air outlet. There is. And these inclined plates 21,
The upper edges 5 of both air outlets 22 are arranged so that the fixing directions thereof are alternate, and these inclined plates 21 and 22 are partitioned by cutting plates 23 and 23. Therefore, by providing several end-cutting plates 23, 23 at each interval between both inclined plates 21, 22, the front inclined plate 21 or the rear inclined plate 22, the end-cutting plate 23, and the air outlet main body. 2 front plate 2'
Alternatively, an outlet nozzle is formed with the rear plate 2''.

そこでの空気、あるいは風の流れ傾斜方向を固
定的に制御し、このノズルを空気吹出し口上縁５
の下方の内部れ傾斜方向を固定的に制御し、この
ノズルを空気吹出し口上縁５の下方の内部にあつ
ては、相互に連通し、最下方の供給孔１０では、
単位径の孔を確保してあつて、この位置より、さ
らに、所定の拡散を行なわしめるために、連通孔
９に収歛せしめてなるものである。 The air or wind flow direction is fixedly controlled, and this nozzle is connected to the upper edge of the air outlet.
The lower internal inclination direction is fixedly controlled, and the nozzles communicate with each other in the lower interior of the upper edge 5 of the air outlet, and in the lowermost supply hole 10,
A hole of unit diameter is secured, and from this position, in order to further carry out a predetermined diffusion, it is made to fit into the communication hole 9.

さらに、第２の実施例の空気吹出し口本体３の
構造にあつては、前述の空気吹出し口上縁５′を
平滑面８とし、この空気吹出し口本体３の平滑面
８に開口する吹出し口ノズルを千鳥形状に配置し
てある。そして、この空気吹出し口本体３の前板
２′あるいは後板２″とで、ノズルを前傾斜板３１
と外向き後傾斜板３２の両側の瀬切り板３３，３
３とで矩形断面に形成してある。 Furthermore, in the structure of the air outlet main body 3 of the second embodiment, the above-mentioned upper edge 5' of the air outlet is a smooth surface 8, and the air outlet nozzle opens into the smooth surface 8 of the air outlet main body 3. are arranged in a staggered pattern. The front plate 2' or rear plate 2'' of the air outlet main body 3 connects the nozzle to the front inclined plate 31.
and the cut-off plates 33, 3 on both sides of the outwardly facing rear inclined plate 32.
3 and is formed into a rectangular cross section.

第２の実施例の空気吹出し口本体３の平滑面８
裏面には、成形型の製作に便利なように、前傾斜
板３１と外向き後傾斜板３２の外面の一部が、こ
の空気吹出し口本体３の前板２′あるいは後板
２″と凹凸面で連続するように構成し、吹出し上
縁口７′と開口するノズルを千鳥形状に配置して
ある。 Smooth surface 8 of air outlet main body 3 of second embodiment
On the back side, a part of the outer surface of the front inclined plate 31 and the outwardly facing rear inclined plate 32 has an uneven surface with the front plate 2' or the rear plate 2'' of the air outlet main body 3 for convenience in manufacturing the mold. The nozzles are arranged in a staggered manner so as to be continuous on the surface, and the nozzles that open with the upper blowout edge 7' are arranged in a staggered manner.

この空気吹出し口本体３の成形型の修正によつ
て、時に、開口するノズルを、前記前傾斜板３１
と、外向き後傾斜板３２の両側の瀬切り板３３，
３３とで、ノズルのみの矩形断面に形成して、交
互向きの吹出し上縁口７′と、それに、双方の傾
斜板３１，３２の各間隔に複数枚の瀬切り板３
３，３３を的確に具備せしめたものである。 By modifying the mold of the air outlet main body 3, the nozzle that opens may be adjusted to the front inclined plate 31.
and the cut-off plates 33 on both sides of the outwardly inclined rear plate 32,
33, the nozzle is formed into a rectangular cross section, and has an upper outlet 7' facing alternately, and a plurality of cutting plates 3 at each interval between both inclined plates 31 and 32.
3 and 33 are precisely provided.

つぎに、この考案に係わる実施例の作用・効果
について説明する。 Next, the functions and effects of the embodiments of this invention will be explained.

［作用］ 上記のごとき、新規なる空気吹出し口本体の構
成によつてもたらされるこの考案の実施例の作用
はつぎのとおりである。[Function] The function of the embodiment of this invention brought about by the above-mentioned novel configuration of the air outlet body is as follows.

このインストルメントパネル上面等に配設され
ている空気吹出し口本体の構造によれば、前述の
上縁を平滑とし、この空気吹出し口本体に開口す
るノズルを千鳥形状に配置し、この本体の前板あ
るいは後板と、ノズルを前傾斜板と外向き後傾斜
板の両側の瀬切り板とで矩形断面に形成したこ
と、あらかじめ、この流れ傾斜方向側の空気吹出
し口縁の内側に空気の流れ方向とは、傾斜する内
向き前傾斜板と外向き後傾斜板の双方の吹出し口
縁の向きを、一体的に組み込んだうえ、交互に配
設し、これら傾斜板を数枚の瀬切り板により区画
し、交互に向けた吹出し口上縁の下方内部にあつ
て互いに連通し、その交互向きの吹出し口上縁の
周縁を付加しておいて、これにより吹出し口上縁
の傾斜板から吹出した風を所定の広い範囲に固定
的に吹付け制御せしめる。 According to the structure of the air outlet body disposed on the top surface of the instrument panel, etc., the above-mentioned upper edge is smooth, the nozzles opening into the air outlet body are arranged in a staggered manner, and the front of the body is arranged in a staggered manner. The plate or rear plate and the nozzle are formed into a rectangular cross section by the front inclined plate and the cut-off plates on both sides of the outward facing backward inclined plate. Direction means that the direction of the outlet edge of both the inwardly facing forward inclined plate and the outwardly facing backward inclined plate are integrated and arranged alternately, and these inclined plates are connected to several slanted plates. The upper edges of the air outlets are divided into sections, and are connected to each other inside the lower part of the upper edge of the air outlet facing alternately, and the periphery of the upper edge of the air outlet that is oriented alternately is added. The spraying is controlled in a fixed manner over a predetermined wide range.

［考案の効果］ 以上、詳細に記述したように、この考案のイン
ストルメントパネル上面等に配設されている空気
吹出し口本体の構造によれば、所定スポツト位置
に無駄なく、広い範囲に変向でき、それに暖房用
の空気を適温の範囲の内に、固定的に吹付け制御
することが可能である。[Effects of the invention] As described in detail above, according to the structure of the air outlet body arranged on the top surface of the instrument panel, etc. of this invention, the air can be diverted over a wide range without wasting any waste at a predetermined spot position. In addition, it is possible to control the blowing of heating air within an appropriate temperature range.

かかる空気吹出し口本体の構造に関する顕著な
る効果について要約すると、つぎのとおりであ
る。 The remarkable effects regarding the structure of the air outlet main body are summarized as follows.

(1) 空気の吹付け方向に係わり、ここでの任意な
前傾斜板と外向き後傾斜板の双方の吹出し口縁
の向きを交互に配設し、これら傾斜板を数枚の
瀬切り板により区画し、交互向きの吹出し口縁
の内部にあつて相互に連通し、吹出し空気流れ
が前方ウインドガラス等への傾斜角のガラス壁
面の限定された下側位置より、これにより吹出
し口縁の傾斜板から吹出した風を所定の範囲の
全面もしくは、所定スポツト位置に無駄なく、
広い範囲に変向でき、それに暖房用の空気を、
適温の範囲の内に固定的に吹付け制御せしめ
る。(1) In relation to the direction of air blowing, the direction of the outlet edges of both the arbitrary front inclined plate and the outward facing backward inclined plate are arranged alternately, and these inclined plates are connected to several pieces of cutting plates. The rims of the outlet openings are divided into sections, and communicate with each other inside the edges of the outlet openings in alternate directions. Directs the wind blown from the inclined plate to the entire surface of a predetermined area or to a predetermined spot position without wasting any waste.
It can be directed over a wide area, and air for heating can be
The spraying is fixedly controlled within the appropriate temperature range.

(2) 所望温度の暖房空気・冷房空気の湿度排除
や、暖房空気の最適必要位置への迅速・供給の
可能性に関しても、顕著なる効果があつた。(2) Remarkable effects were also achieved in terms of removing humidity from heating air and cooling air at a desired temperature and the possibility of quickly supplying heating air to the optimum location.

(3) 自動車等車両用としての、前方ウインドガラ
ス等への傾斜角のガラス壁面と、対峙さすにし
ても、空気吹出し口本体の成形型の修正をおこ
なつたことによつて、もたらされる空気吹出し
口本体の成形型の修正は、最少に限定できるも
のであり、この修正による吹き付け位置に無駄
なく、広い範囲に変向でき、最適空気の迅速・
供給の可能性が付与されたのである。(3) For vehicles such as automobiles, the air produced by modifying the mold of the air outlet body, even if it is opposed to the glass wall surface with an inclined angle to the front windshield, etc. Modifications to the mold for the air outlet body can be kept to a minimum, and this modification allows the spraying position to be changed over a wide range without wasting any waste, allowing for rapid and optimal air flow.
The possibility of supply was granted.

(4) また、インストルメントパネルの上面の空気
吹出し口本体の吹出し口上縁の平滑は、乗員か
ら見た外観には変りがなく、デザイン的にも支
承がない。(4) Furthermore, the smoothness of the upper edge of the air outlet of the air outlet body on the top surface of the instrument panel does not change the appearance seen from the passenger, and there is no support in terms of design.

しかして、この考案のような構成によつて、最
初に列挙した設定条件を満足するもので、インス
トルメントパネル上面等に配設され、より良く構
成された空気吹出し口上縁とノズル等を具備する
空気吹出し口本体の構造を得ることができ、真
に、実用的価値の高い考案であるといえる。 Therefore, the configuration of this invention satisfies the setting conditions listed above, is arranged on the top surface of the instrument panel, etc., and has a better configured upper edge of the air outlet, nozzle, etc. The structure of the air outlet main body can be obtained, and it can be said that this invention is truly of high practical value.

【図面の簡単な説明】[Brief explanation of drawings]

第１図ないし第３図はこの考案の第１の実施例
を示すものであつて、第１図は第１の実施例の空
気吹出し口本体の全体斜視図、第２図は第１図の
Ａ−Ａ矢視線に沿う断面図、第３図は第１図のＢ
−Ｂ矢視線に沿う断面図、第４図ないし第６図は
この考案の第２の実施例を示すものであつて、第
４図は第２の実施例の空気吹出し口本体の全体斜
視図、第５図は第４図のＣ−Ｃ矢視線に沿う断面
図、第６図は第４図のＤ−Ｄ矢視線に沿う断面
図、第７図は両実施例の空気吹出し口とウインド
ガラスの傾斜壁面との関係を示す要部断面図、第
８図および第９図は従来例の空気吹出し口とウイ
ンドガラスの傾斜壁面との関係を示す要部断面図
である。 １……インストルメントパネル、１′……ウイ
ンドガラス壁面、１″……吹付け所定範囲の全面、
２，３……空気吹出し口本体、２′……前板、
２″……後板、４……空気吹出し口縁、５，７…
…空気吹出し口上縁、７′……空気吹出し上縁口、
８……平滑面、９，９′……連通孔、１０，１
０′……供給孔、２１，３１……前傾斜板、２２，
３２……後傾斜板、２３，３３……瀬切り板。 1 to 3 show a first embodiment of this invention, in which FIG. 1 is an overall perspective view of the air outlet body of the first embodiment, and FIG. 2 is a perspective view of the main body of the air outlet of the first embodiment. A cross-sectional view taken along the arrow line A-A, Figure 3 is B in Figure 1.
-A sectional view taken along the line of arrow B, and FIGS. 4 to 6 show a second embodiment of this invention, and FIG. 4 is an overall perspective view of the air outlet main body of the second embodiment. , FIG. 5 is a sectional view taken along the line C-C in FIG. 4, FIG. 6 is a sectional view taken along the line D-D in FIG. 4, and FIG. 7 shows the air outlet and window of both embodiments. FIGS. 8 and 9 are cross-sectional views of essential parts showing the relationship between the air outlet and the inclined wall surface of the window glass in a conventional example. 1...Instrument panel, 1'...Window glass wall surface, 1''...Full surface of predetermined area to be sprayed,
2, 3... Air outlet body, 2'... Front plate,
2″... Rear plate, 4... Air outlet rim, 5, 7...
...Top edge of air outlet, 7'...Top edge of air outlet,
8...Smooth surface, 9,9'...Communication hole, 10,1
0'... Supply hole, 21, 31... Front inclined plate, 22,
32... Rear slope board, 23,33... Cut-off board.

Claims (1)

【実用新案登録請求の範囲】 (1) インストルメントパネル壁面よりガラス面に
対して傾斜して空気を吹出す偏平な空気吹出し
口において、この空気吹出し口縁の内側に空気
の流れ方向とは傾斜する内向き前傾斜板と外向
き後傾斜板を交互に配設し、これら傾斜板を瀬
切り板により区画し、これら前傾斜板あるいは
後傾斜板と瀬切り板と空気吹出し口本体の前板
あるいは後板とで吹出し口ノズルを形成し、こ
のノズルを空気吹出し口縁の内部で相互に連通
したことを特徴とする空気吹出し口構造。 (2) 空気吹出し口本体の上縁を平滑面とし、この
空気吹出し口に開口するノズルを千鳥形状に配
置し、このノズルを前傾斜板と外向き後傾斜板
と両側の瀬切り板とで矩形断面に形成したこと
を特徴とする実用新案登録請求の範囲第１項記
載の空気吹出し口構造。[Claims for Utility Model Registration] (1) In a flat air outlet that blows air from the wall surface of the instrument panel at an angle to the glass surface, the inside edge of the air outlet is inclined with respect to the flow direction of the air. Inwardly facing forward inclined plates and outward facing backwardly inclined plates are arranged alternately, and these inclined plates are partitioned by cutting plates, and these front inclined plates or rear inclined plates, cutting plates, and the front plate of the air outlet main body are separated. Alternatively, an air outlet structure is characterized in that an outlet nozzle is formed with the rear plate, and the nozzles are communicated with each other inside the edge of the air outlet. (2) The upper edge of the air outlet body is a smooth surface, and the nozzles that open to this air outlet are arranged in a staggered manner, and the nozzles are formed by a front inclined plate, an outwardly facing rear inclined plate, and cut-off plates on both sides. The air outlet structure according to claim 1, wherein the air outlet structure is formed to have a rectangular cross section.