M423810 五、新型說明: 【新型所屬之技術領域】 本創作係有關一種上升旋渦式排油煙裝置,尤指一種兼具 上升旋渦式排油煙效果佳、旋渦式氣流可捲動導引油煙與結構 簡單等優點之上升旋渦式排油煙裝置。 【先前技術】 傳統排油煙裝置主要設兩個吸風口,於兩個吸風口上分別 設一抽風馬達,達到以兩個吸風口分別抽吸瓦斯爐上烹煮所產 生的油煙。 而傳統排油煙裝置在剛使用時,原則上都能達到抽吸油煙 的效果,但由於是直接抽風式,當抽風馬達使用久了,抽風效 果變差後,抽吸油煙效果跟著變差,即無法完全抽吸油煙,尤 其是遇到較大的油煙時,甚至可能發生來不及抽吸油煙而使油 煙到處四散的問題。 目前並沒有可以捲減流,賴氣流帶動油煙快速抽離的 抽油煙裝置。 有鑑於此,必需研發出可解決上述習用缺點之裝置。 【新型内容】 1新狀目# ’在於提供—種上升制式排趙裝置,其 兼具上升旋渴式排油煙效果佳、旋涡式氣流可捲動導引油煙與 結構簡單之功效。特別是,本新型所欲解決之問題包括:目前 也又有μ捲動而快速抽離油煙的排油煙裝置等問題。 3 M423810 種上升旋渦式排油煙 解決上述贿之技術手段係提供— 裝置,其包括: 一主體’係設有—進氣部及至少-排氣部; 至少—排油煙結構,係設有: 一排氣通道,係連通該排氣部;M423810 V. New description: 【New technical field】 This creation is related to a rising vortex fume exhausting device, especially a kind of rising vortex fume exhausting effect, vortex flowable scrolling guide fume and simple structure. The advantages of the rising vortex exhaust fume device. [Prior Art] The conventional exhaust fume device mainly has two suction ports, and a suction motor is respectively arranged on the two suction ports to achieve the soot generated by cooking on the gas furnace with the two suction ports respectively. In the case of the conventional exhaust fume device, the effect of sucking the fume can be achieved in principle, but since it is a direct exhaust type, when the exhaust motor is used for a long time and the exhaust effect is deteriorated, the effect of sucking the fume is deteriorated, that is, It is impossible to completely pump the fumes, especially when encountering a large soot, and there may even be a problem that the fumes are not enough to be soaked and the soot is scattered everywhere. At present, there is no smog device that can reduce the flow of the flue gas. In view of this, it is necessary to develop a device that can solve the above disadvantages. [New content] 1 New condition # ’ is to provide a kind of ascending system arranging device, which has the advantages of good ascending thirst-type exhaust fumes, vortex-type airflow scrolling guide soot and simple structure. In particular, the problems to be solved by the present invention include: at present, there are also problems such as a soot device that quickly pulls off the soot. 3 M423810 kinds of ascending vortex exhaust fumes to solve the above-mentioned bribery technical means are provided - the apparatus comprises: a main body is provided with - an intake portion and at least - an exhaust portion; at least - a fume exhaust structure, is provided with: An exhaust passage connecting the exhaust portion;
罩件從罩=係具有-上開’及-下開口部;該導引 ^攸該上和部_頂鸣的柏概轉雜態·該上開 。以連通該排氣通道;該下開口部係柄—吸油煙區域·其 内具有一虛擬中心點; ^旋跡成官路’係與該至少一排油煙結構相對應; 鄉成管路具有—進氣端部及複數個出氣端部·該進氣端部 系連通該進氣部,·該複數個域善辭均分佈於該下開口部 的週圍,並朝該吸油煙區域的方向延伸出去;該每一出氣端部The cover member has a - upper opening and a lower opening portion; the guiding portion 攸 the upper portion and the top portion of the cypress is turned into a hybrid state. To connect the exhaust passage; the lower opening is a handle-sucking oil-smoke region, and has a virtual center point therein; ^Rotary Chengguan Road' corresponds to the at least one row of soot structures; The intake end portion and the plurality of air outlet ends are connected to the air intake portion, and the plurality of domains are distributed around the lower opening portion and extend toward the soot area. Each end of the gas outlet
係具有至少-出氣口,該複數個出氣端部上之該出氣口,係與 該虛擬中心點間保持同一旋渦出氣角度; 一控制部’ _以控繼進氣部及該魏部動作; 供電。P係用以提供該進氣部、該排氣部及該控制部動 作所需之電力; 藉匕田啟動該進氣部及該排氣部;該進氣部用以將一氣 體從該進氣部、該進氣端部,而經該複數該出氣口以同一旋渦 出氣角度,朝該吸油煙區域噴出而形成旋渴氣流;同時該排氣 部經該下、該上開口部吸氣’吸引位於該吸油煙區域内之旋渦 4 M423810 氣流上升而形成類似龍捲風之上升旋渦,當該吸油煙區域内具 有油煙時,該油煙係被捲入上升旋渦而迅速由該排氣部排出。 本創作之上述目的與優點,不難從下述所選用實施例之詳 細說明與附圖中,獲得深入瞭解。 茲以下列實施例並配合圖式詳細說明本創作於後: 【實施方式】 參閱第-、第二、第三及第六圖,本創作係為一種上升旋 渦式排油煙裝置,其第一實施例包括: 一主體10,係設有一進氣部u及至少一排氣部12; 至少一排油煙結構20,係設有: 一排氣通道21,係連通該排氣部12 ; -導引罩件22 ’係具有-上開口部221及一下開口部 222 ·’該導引罩件22從該上開口部221朝該下開口部222的方 向概呈漸雛態;該上開口部221係連通該排氣通道21 ;該 下開口部222係朝向-吸油煙區域p ;其内具有—虛擬中心點 A ; 至少-旋·成管路30,係與該至少一排油煙結構2〇相 對應;該旋渴形成管路30具有一進氣端部31及複數個出氣端 部32 ;該進氣端部31係連通該進氣部u ;該複數個出氣端部 32係平均分佈於該下開口部222的週圍,並朝該吸油煙區域p 的方向延伸出S ;該每-出氣端部32係具有至少一出氣口 321 ’該複數個出氣端部32上之該出氣口奶,係與該虛擬中 5 心點A間保持同一旋渦出氣角戶…. 作一,係崎制:進一排一 控制一 藉此,當啟動該進氣部氣部12 ;該 用以將一氣體91從該進氣部u、該進氣端部31,而料 該出氣口功以同-旋渦出氣角度01,朝該吸油煙_ 出而形成旋渦氣流;同時該排氣部Π經該下、該上開口 ^吸氣,吸引位於該吸油煙區域ρ内之旋渦氣流上升而形 成類似龍捲風之上升魏,當該吸油舰域91内具有油煙 叫(參閱第五圖)時’該油煙911係被捲入上升旋迅速 排氣部12排出。 迷由該 實務上,該進氣部11及該排氣部12皆為抽風馬達。 該排油煙結構20係設兩個’而與一般之雙口瓦斯爐幻相 對應。 5亥排氣部12對應該兩個排油煙結構2〇而設置兩個。 該排氣通道21可為可伸縮之蛇管結構,而可調整該排油 煙結構20與該雙口瓦斯爐81 之距離。 該出氣端部32係設四個’平均分佈於該導弓丨罩件22 個角落。 、四 參閱第七、第八及第九圖,係本創作之第二實施例,其與 M423810 第一實施例之差異處,僅在於該出氣端部32包括一固定件 32A、一無段調整件32B、一轉動件32c及至少一定位件32D ; 該無段調整件32B概呈圈狀的設於制定件32A,該轉動件 32C係以可轉動離態,與朗定件32A氣純接;該至少一 定位件如錢於鋪麟32C上,並恰好卡人而定位於該 無段調整件32B上;藉此’當以大於該定位件32D與該無段 調整件32B相對卡合的力’即可將轉動件32(:由原本的第 -位置P卜轉動任意角度(例如轉動一調整後出氣角度㈣而 變換至-第二位置P2,並藉該定位件32D卡人定位於該無段 調整件32B,而使該轉動件32c定位。 本創作之實際動作過程係如下所述: 當啟動該進氣部11及該排氣部12,該上升旋涡式排油煙 裝置係產生以下動作: [a] 進氣:該進氣部11強迫導引氣體91從該進氣端部 31、該出氣端部32 ’而經該複數個出氣口 321,以相同的旋渦 出氣角度(91朝該吸油煙區域p内(參閱第三及第四圖)喷出, 而形成旋渦氣流。 [b] 吸氣.該排氣部12經該下、該上開口部222與, 對該吸油煙區域p進行吸氣動作,吸引位於該吸油煙區域p 内之旋賊流上升_成_龍捲風之上升旋滿。 Μ類似龍捲風之排油煙:參閱第五圖,當該雙口瓦斯爐 81上產生之油煙911往上飄至該吸油煙區域%内時即被捲 7 M423810 入“類似龍捲風”之上升旋滿内,快速經該排氣部12被排出。 本創作之優點及功效可歸納如下: [1] 上升故渴式排油煙效果佳。本創作可於吸油煙區域内 產生紅渦氟流’配合排氣部吸引旋渴氣流上升形成類似龍捲風 的氣流(龍捲風的特性就是可吸引固體、液體與氣體),使得亨 煮過程產生的油煙(可能包含微粒)只要上飄至吸油煙區域 内,即迅速被捲入並由該排氣部排出。故上升旋渦式排油煙效 • 果佳。 [2] %渴式氣流可捲動導引油煙。本創作於吸油煙區内形 成旋渦氣流,可捲動導引吸油煙區附近的氣流朝吸油煙區内流 動,強化導引上飄至吸油煙區附近的油煙,朝吸油煙區内流 動,提高吸引油煙的效能。故,旋渦式氣流可捲動導引油煙。 [3] 結構簡單。本創作只是在吸油煙區域内設置複數個以 相同旋渦出氣角度出氣的出氣口’用以朝吸油煙區域内形成旋 ® 渦氣流,即可配合排氣部形成上升旋渦。故。結構簡單。 由以上詳細說明,可使熟知本項技藝者明瞭本創作的確可 • 達成前述目的’實已符合專利法之規定,爰提出新型專利申請。 【圖式簡單說明】 第一圖係本創作之第一實施例之示意圖 第二圖係第一圖之平面圖 第三圖係第二圖之出氣口角度之示意圖 第四圖係本創作之產生旋渦氣流之示意圖 8 M423810 第五圖係本創作之產生類似龍捲風排油煙之示意圖 第六圖係本創作之結構之系統方塊圖 第七圖係本創作之第二實施例之示意圖 第八圖係第七圖之部份結構之分解放大之示意圖 第九圖係第七圖之部份結構之動作示意圖 【主要元件符號說明】 10主體The system has at least an air outlet, and the air outlet on the plurality of air outlet ends maintains the same vortex air outlet angle with the virtual center point; a control unit ' _ controls the air intake portion and the Wei portion to operate; . P is for providing the electric power required by the air intake portion, the exhaust portion, and the control portion; and the intake portion and the exhaust portion are activated by the field; the air intake portion is for taking a gas from the a gas portion, the gas inlet end portion, and the plurality of gas outlet ports are ejected toward the oil absorption fume region to form a thirsty air flow through the same vortex air outlet angle; and the exhaust portion is inhaled through the lower and the upper opening portions The vortex 4 M423810 in the range of the range is attracted to form a tornado-like ascending vortex. When there is soot in the range, the soot is caught in the rising vortex and is quickly discharged from the exhaust. The above objects and advantages of the present invention are not limited by the detailed description of the selected embodiments described below and the accompanying drawings. The following examples are described in detail with reference to the drawings: [Embodiment] Referring to the first, second, third and sixth figures, the present invention is a rising vortex fume exhaust device, the first implementation thereof For example, a main body 10 is provided with an air inlet portion u and at least one exhaust portion 12; at least one row of soot structure 20 is provided with: an exhaust passage 21 connecting the exhaust portion 12; The cover member 22' has an upper opening portion 221 and a lower opening portion 222. The guiding cover member 22 is gradually gradual from the upper opening portion 221 toward the lower opening portion 222; the upper opening portion 221 is Connecting the exhaust passage 21; the lower opening portion 222 is oriented toward the soot collecting area p; having a virtual center point A therein; and at least the swirling line 30 corresponding to the at least one row of fume structure 2〇 The quenching formation line 30 has an inlet end portion 31 and a plurality of outlet portions 32; the inlet end portion 31 is connected to the inlet portion u; the plurality of outlet portions 32 are evenly distributed under the outlet portion Around the opening 222, and extending in the direction of the range so that the soot area p; the per-exhaust end 32 has at least An air outlet 321 'the outlet air on the plurality of outlet ends 32 maintains the same vortex angle between the virtual center 5 points A.... One, the system is: one row, one control, one borrowing In this case, when the air inlet portion 12 is activated, the gas 91 is used to take a gas 91 from the inlet portion u and the inlet end portion 31, and the outlet port is made to have the same-vortex outlet angle 01 toward the oil absorption. The smoke _ is formed to form a vortex flow; at the same time, the exhaust portion is sucked through the lower opening and the upper opening to attract the vortex flow in the range ρ to rise to form a similar tornado rise, when the oil absorbing domain When there is a soot in the 91 (refer to the fifth figure), the soot 911 is caught in the ascending spin and is quickly discharged from the exhaust unit 12. In this practical matter, the intake portion 11 and the exhaust portion 12 are both exhaust motors. The fume structure 20 is provided with two '' and corresponds to a general two-port gas burner phantom phase. The 5th vent section 12 is provided with two hood structures 2 〇. The exhaust passage 21 can be a retractable coil structure, and the distance between the exhaust fumes 20 and the dual gas burner 81 can be adjusted. The outlet end portion 32 is provided with four 'average distributions' at 22 corners of the guide bow member. 4 refers to the seventh embodiment, the eighth embodiment and the ninth embodiment. The second embodiment of the present invention differs from the first embodiment of the M423810 only in that the air outlet end portion 32 includes a fixing member 32A and a stepless adjustment. The member 32B, a rotating member 32c and at least one positioning member 32D; the stepless adjusting member 32B is disposed in a ring shape on the setting member 32A, and the rotating member 32C is rotatably separated and is purely connected with the Langding member 32A. The at least one positioning member is positioned on the lining 32C and is positioned on the stepless adjustment member 32B just by the card; thereby, when the locating member 32D is larger than the detachable adjustment member 32B The force can be used to rotate the rotating member 32 (from the original first position P to any angle (for example, by rotating an adjusted air outlet angle (4) to the second position P2, and the positioning member 32D is positioned by the card holder. The rotating member 32c is positioned without the segment adjusting member 32B. The actual operation process of the present invention is as follows: When the intake portion 11 and the exhaust portion 12 are activated, the ascending vortex fume exhaust device generates the following actions [a] intake air: the intake portion 11 forces the pilot gas 91 from the intake end portion 31, The outlet end portion 32' is ejected through the plurality of air outlets 321 at the same vortex outlet angle (91 toward the inside of the range soaking area p (see the third and fourth figures) to form a swirling airflow. [b] The exhaust portion 12 passes through the lower and the upper opening portions 222 to perform an air intake operation on the range so that the thief flow in the soot area p rises and becomes a rise of the tornado Μ A tornado-like exhaust fumes: Referring to the fifth figure, when the soot 911 produced on the double-mouth gas burner 81 floats up to the % of the range soaking area, it is rolled up by the 7 M423810 into a “like tornado”. Inside, the exhaust portion 12 is quickly discharged. The advantages and effects of this creation can be summarized as follows: [1] The effect of rising thirst-type exhaust fumes is good. This creation can generate red vortex flow in the range of the soot. The gas part attracts the thirst airflow to form a tornado-like airflow (the characteristics of the tornado are that it can attract solids, liquids and gases), so that the soot (possibly containing particles) generated by the henry process can be quickly swept up into the range of the fume. Entangled in and by the row The gas is discharged. Therefore, the vortex type is exhausted. • The fruit is good. [2] The thirsty airflow can be used to guide the soot. This creation creates a vortex flow in the range, which can be scrolled to guide the vicinity of the range. The airflow flows into the range hood, strengthens the soot that floats to the vicinity of the hood, and flows toward the hood to improve the efficiency of attracting the soot. Therefore, the vortex flow can scroll to guide the soot. [3] Structure It is simple. The creation is only to set a plurality of air outlets that are vented at the same vortex outlet angle in the range of the range hood to form a swirling vortex flow in the range of the oil smog, so that the vortex can be formed in conjunction with the exhaust portion. Therefore, the structure is simple. From the above detailed description, it will be possible for a person skilled in the art to understand that the creation of the present invention can achieve the aforementioned objectives, which have met the requirements of the Patent Law and propose a new type of patent application. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a schematic view of a first embodiment of the present invention. The second drawing is a plan view of the first drawing. The third drawing is a schematic view of the air outlet angle of the second drawing. The fourth drawing is a vortex generated by the present creation. Schematic diagram of airflow 8 M423810 The fifth diagram is a schematic diagram of the creation of a similar tornado exhaust smoke. The sixth diagram is the system block diagram of the structure of the creation. The seventh diagram is the schematic diagram of the second embodiment of the present creation. Schematic diagram of the decomposition and enlargement of part of the structure of the figure. The ninth diagram is a schematic diagram of the operation of part of the structure of the seventh figure.
11進氣部 20排油煙結構 22導引罩件 222下開口部 31進氣端部 32A固定件 32C轉動件 321出氣口 50供電部 91氣體 P吸油煙區域 01旋渦出氣角度 P1第一位置 12排氣部 21排氣通道 221上開口部 30旋渦形成管路 32出氣端部 32B無段調整件 32D定位件 40控制部 81雙口瓦斯爐 911油煙 A虛擬中心點 Θ2調整後出氣角度 P2第二位置 911 intake portion 20 exhaust fume structure 22 guide cover member 222 lower opening portion 31 intake end portion 32A fixing member 32C rotating member 321 outlet port 50 power supply portion 91 gas P fume area 01 vortex outlet angle P1 first position 12 row Air portion 21 exhaust passage 221 upper opening portion 30 vortex forming line 32 air outlet end portion 32B no segment adjustment member 32D positioning member 40 control portion 81 double gas furnace 911 soot A virtual center point Θ 2 adjusted rear air angle P2 second position 9