M394365 五、新型說明: 【新型所屬之技術領域】 刚 本創作關於—種門窗排水器,主要指_種可具_ 排水效率之排水器。 [先前技術] [_ 習知門窗為增進排水功能,-般係於Η窗框體上設 置排水孔, 並可將框體内之積水由排水孔排出;又目前較佳之設計 係於排水孔上又設置排水器,並該排水器於不排水時可 關閉排水孔以防止框架内積塵。 而該習知排水器於前方震|窗裤之外侧(屋外方向) 設置排水口,並於排水口設_¥,然而當外界風面吹 襲窗體時將直接吹襲排水口之蓋禮,並造成該蓋體不能 順利開啟排水,並更導致窗框積水不能排出而滲入屋内 缺失。 【新型内容】 [0003] 本創作之目的在提供一-可具較佳排水效率之門窗 排水器。 本創作之排水器具進水口’中央具透水槽,並於二 侧設置排水口’前方具擋風壁,又該擋風壁具由外側朝 向内側斜向之導風面,並該導風面可具左、右二導風面 ,並其朝向外側端位於對應擋風壁中央位置;又前述排 水器設於門窗框體上,並該框體具排水孔,並排水器設 於對應框體排水孔位置,並使進水口與排水口連通;藉 此框體内之積水由框體排水孔流入透水槽内,並由排水 表單编號Α0101 第3頁/共12頁 M394365 4 器之排水口導出,並外界強風吹襲擋風壁,不會直接吹 襲排水口,可防止積水逆流入框體内,又外界強風吹襲 導風面係可導流至對應排水器側方,並使排水口位置形 成負壓,並使排水器内之水可藉由導風面導引之氣流方 向更迅速由排水口導出,並可增進排水效率。 本創作排水器之二側排水口與排水器二側端具間距 ,並於排水口可設置可啟閉之蓋體,又該排水器之透水 槽中央可設置隔板,並隔板二侧分別對應一排水口及一 進水口;藉此框體内積水可由框體排水孔流入透水槽内 ,並該隔板可作區隔並使積水分別由排水器二側排水口 導出以平均排水,並可提升排水效率。 【實施方式】 [0004] 請參閱第一〜三圖,本創作之排水器1具進水口 11, 中央具透水槽12,並於二側設置排水口 13,前方具擋風 壁14,又該擋風壁14具由外側朝向内側斜向之導風面141 ,並該導風面141具左、右二導風面,並其朝向外側端位 於對應擋風壁14中央位置;又前述排水器設於門窗框體2 上,並該框體2具排水孔21,並排水器1設於對應框體2排 水孔21位置,並使進水口 11與排水孔21連通;又排水器1 之二側排水口 13與排水器1二側端具間距,並於排水口 13 設置可啟閉之蓋體131,又該排水器1之透水槽12中央設 置隔板121,並隔板121二側分別對應一排水口 13及一進 水口 11。 請參閱第四〜五圖,本創作框體2内積水可由框體2排 水孔21流入透水槽12内,並該隔板121可作區隔並使積水 表單編號A0101 第4頁/共12頁 分別由排水器1二側排水,又外界強風(如雙箭頭所示)係 吹襲擋風壁14,不會直接吹襲排水口 13,可防止積水逆 流入框體2内,又外界強風吹襲導風面141可導流至對應 排水器1側方,並使排水口 13位置形成負壓,並使排水器 1内之水可藉由導風面141導引之氣流方向更迅速由排水 口 13導出,並可增進排水效率。 π稽由自然風力導流設計可 大幅提升排水效率,而本創作前述隔板、蓋體不設置時 亦可藉由梢料風面輯以騎料料水效率,因 而該隔板、蓋體並非必要設置,又該導風面亦可配合迎 風方向僅具_斜向料,並^排細較佳排水 j率功效’而前述實_為衫猶❻,並非本創作限 制’凡依據賴_神料”勒於本創作 範轉内》 【圖式簡單說明】 [0005] 第一圖係本創作之立體示意齒。 第二圖係本_之排水器與,_合上視示意圖。 第三圖係賴作之排水㈣㈣以㈣職及排水示 意圖。 第四圖係本創作之排水器與框敝合前視及排水示意圖 〇 第五圖係本創作之排水器與框體組合上視及排水示意圖 [0006] 【主要元件符號說明】 1排水器 11進水口 12透水槽 表單编號A0101 第5頁/共12頁 M394365 131蓋體 121隔板 13排水口 14擋風壁 141導風面 2框體 21排水孔 表單編號A0101 第6頁/共12頁M394365 V. New description: [New technical field] The original creation of the door and window drainer mainly refers to the type of drainage device with _ drainage efficiency. [Prior Art] [_ The door and window are used to enhance the drainage function. The drain hole is provided on the frame of the window, and the water in the frame can be drained from the drain hole. The current preferred design is on the drain hole. A drain is also provided, and the drain can close the drain hole when it is not drained to prevent dust from collecting inside the frame. The conventional drainer is provided with a drain port on the outer side of the front window (outside the window), and is provided with a drain at the drain port. However, when the outside wind blows the window, the cover of the drain port is directly blown. And the cover body can not smoothly open the drainage, and the water in the window frame can not be discharged and the leakage into the house is lost. [New Content] [0003] The purpose of this creation is to provide a door and window drainer with better drainage efficiency. The water inlet of the drainage device of the present invention has a permeable trough in the center, and a drainage opening is provided on the two sides with a windshield wall, and the windshield wall has a wind guiding surface obliquely from the outer side toward the inner side, and the wind guiding surface can be The left and right air guiding surfaces are located at the center of the corresponding windshield wall toward the outer end; the drainer is disposed on the door and window frame body, and the frame body has a drainage hole, and the drain device is disposed in the corresponding frame body drainage The position of the hole and the water inlet and the water outlet are connected; the water accumulated in the frame flows into the water permeable tank through the frame drainage hole, and is discharged by the drainage port number Α0101, page 3 of 12, M394365 4 And the outside strong wind hits the windshield, does not directly hit the drain, can prevent the backwater from flowing back into the frame, and the outside strong wind blows the wind guide to guide the side of the corresponding drain and make the drain The position forms a negative pressure, and the water in the drain can be led out of the drain port more quickly by the direction of the air flow guided by the air guiding surface, and the drainage efficiency can be improved. The two side drains of the created drainer are spaced apart from the two sides of the drainer, and a lid that can be opened and closed can be arranged at the drain port, and a partition plate can be arranged in the center of the drain of the drainer, and the two sides of the partition are respectively Corresponding to a water outlet and a water inlet; thereby, water accumulated in the frame body can flow into the water permeable tank through the drainage hole of the frame, and the partition can be partitioned and the water is respectively drained from the drainage outlets of the drainer to drain the water evenly, and Improve drainage efficiency. [Embodiment] [0004] Please refer to the first to third figures. The drain device of the present invention has a water inlet 11 and a central permeable trough 12, and a drain port 13 is provided on both sides, and a windshield wall 14 is provided on the front side. The windshield wall 14 has a wind guiding surface 141 which is inclined from the outer side toward the inner side, and has a left and right wind guiding surface, and is located at the center of the corresponding windshield 14 toward the outer end; It is disposed on the door and window frame 2, and the frame body 2 has a drain hole 21, and the drainer 1 is disposed at the position of the drain hole 21 of the corresponding frame body 2, and connects the water inlet 11 to the drain hole 21; The side drain port 13 is spaced apart from the two side ends of the drainer 1, and the lid opening 131 is opened and closed at the drain port 13, and the partition plate 121 is disposed in the center of the drain tank 12 of the drainer 1, and the partition plate 121 is respectively disposed on the two sides. Corresponding to a drain port 13 and a water inlet port 11. Referring to the fourth to fifth figures, the water accumulated in the creation frame 2 can flow into the through-drain 12 from the drain hole 21 of the frame 2, and the partition 121 can be partitioned and the water form number A0101 page 4 / total 12 pages The two sides of the drainer 1 are respectively drained, and the outside strong wind (as indicated by the double arrow) blows against the windshield wall 14, and does not directly hit the drain port 13, which prevents the accumulated water from flowing backward into the frame 2, and the outside is strong. The wind guiding surface 141 can be guided to the side of the corresponding drainer 1 and the negative pressure of the drain opening 13 is formed, and the water in the drainer 1 can be guided by the air guiding surface 141 to more quickly discharge the airflow direction. The mouth 13 is exported and the drainage efficiency is improved. The design of the natural wind diversion can greatly improve the drainage efficiency. However, when the partition and the cover are not installed, the water efficiency of the material can be collected by the wind surface of the tip, so the partition and the cover are not Necessary setting, and the wind guiding surface can also be used with the windward direction only with _ oblique material, and ^ fine row better drainage j rate effect 'and the above real _ is still a shirt, not the limit of this creation The material is “in the context of this creation” [Simplified description of the drawing] [0005] The first picture is the three-dimensional schematic tooth of the creation. The second picture is the schematic diagram of the drainage device and the upper view. The drainage of the system (4) (4) is based on the (4) position and drainage diagram. The fourth picture shows the front view and drainage diagram of the drainage device and the frame of the creation. The fifth picture shows the drainage and the combination of the drainage and the frame of the creation. [0006] [Main component symbol description] 1 Drainer 11 Inlet 12 through tank form No. A0101 Page 5 / Total 12 pages M394365 131 Cover 121 Separator 13 Drain 14 Windshield 141 Windshield 2 Frame 21 drain hole form number A0101 Page 6 of 12