201115856 六、發明說明: 【發明所屬之技術領域】 本發明係有關一種防塵防水插座,尤其是一種可防止 市電插座之電路系統進水之創新型態設計者。 【先前技術】 按’ 一般建物結構皆會在壁面内部朝外嵌設多數市電 座’而各市電座再藉由建物之樓層中央總開關控制供電, •且各中央總開關係匯集受電於電力公司系統,而一般民眾 可使欲使用的各式電器插頭插設於市電插座使用,然而該 市電插座之插置孔在利多方面雖具有許多電器供電使用的 方便性,但在利多方便性的背後卻也隱藏的莫大的危機, 例如,常有許多幼童常因家中無大人的原故居於好奇心驅 始下’而執一導電性鐵絲穿進市電插座内,其嚴重後果可 心而知輕者則造成電擊重傷,重則電路走火釀成火災; 有於此遂有發明人為了防範該種悲劇不斷重演,俾發 鲁明一種安全插置件結構; 該習知結構請參閱第1圖所示,該安全插置件(4 ) 係包含有一絶緣性的蓋體(5 )底部連設有複數插端(6 ),各插端(6 )恰可插設於市電座(工)的電源插座( 2)的插置。p (3)内,進而使該市電座(1 )在非使用 狀態時使用者可使該安全插置件(4 )的插端(6 )插設 於市電座(1)的插置部(3),而令蓋體(5)封閉住 該電源插座(2 )的插置部(3 )位置; 惟’此種習知結構型態於實際使用經驗中發現仍存在 3 201115856 下述之問題點:因該安全插 於市電插座(2 )内部後, 插座(2 )表面具有些微間 時,容易使較低窪地區的建 會流入該市電插座(2 )内 可在第一時間關閉樓層中央 進了水及泥沙的市電插座, 則易產生腐银損壞,以使在 • 〇 是以,針對上述習知市 何開發一種更具有安全性的 費者所殷切企盼,亦係相關 方向;有鑑於此,發明人本 發與設計經驗,針對上述之 ,終得一確具實用性之本發 •【發明内容】 即,本發明之主要目的 ;其所欲解決之問題點,係 到天然災害造成水患時,容 泡水同時水及泥沙則會流入 的問題點加以改良突破; 而其解決問題之技術特 覆定位於一具有電源插座本 底緣形成有一結合空間,其 置件(4 )之插端(6 )插設 該蓋體(5 )部份仍與該電源 隙,當遇到天然災害造成水患 物泡水,泡水同時水及泥沙則 部的電路系統内,當然使用者 控制開關防止電性走火,但當 其内部的電路系統經由泡水後 曰後造成供電不穩定的情形者 電座結構所存在之問題點,如 市電插座創新技術,實使用消 業者須努力研發突破之目標及 於多年從事相關產品之製造開 目標’詳加設計與審慎評估後 明〇 ’係在提供一種防塵防水插座 針對習知市電插座所存在之遇 易使較低窪地區的建物泡水, 該市電插座内部的電路系統内 點,主要係藉由一蓋體相對蓋 體的市電座,且該蓋體之周側 中該結合空間内係藉由一石夕利c U — 4 201115856 康膠狀環周密閉填縫於外壁面,再者,該蓋體對應該電源 插座本體位置貫設有一穿置部,令該穿置部環側緣上端凸 伸有一凸框座,並使該凸框座配合套接一密封該電源插座 本體的絶緣性密封罩; 藉此創新獨特設計,使本發明得賦予該市電座之底緣 缝隙,以及該電源插座本體之插置孔的防水、防塵功能性 ,進以大幅降低在地窪地區的建物常因天災淹水及塵垢流 入市電座的内部電路系統,而引起電路走火等意外災害, • 藉由本發明市電座之電路淹水防護的密閉機制,進而令本 發明達到電路走火等危害防制的實用進步性者。 【實施方式】 請參閱第2〜5圖所示,係本發明防塵防水插座之較 佳實施例,惟此等實施例僅供說明之用,在專利申請上並 不受此結構之限制; 所述插座係包含一蓋體(2 0 )相對蓋覆定位於一具 ®有電源插座本體(11)的市電座(10),其中該蓋體 (2 0 )之底周緣(2 4 )周側形成有一結合空間(1 5 ),且該市電座(10)之底部中央預定位置係承接有一 支架板(1 4 ),並使該結合空間(1 5 )形成於該支架 板(14)之外周緣與該市電座(10)底緣(13)的 相對位置,且該蓋體(2 0 )之内側壁面預定位置係設有 嵌組部(2 3 ),該嵌組部(2 3 )係恰可嵌扣定位於該 市電座(10)之底緣(13),又該結合空間(15) 5 絶緣性的膠狀矽利康 環周式填縫,藉以令 )密閉結合於外壁面 1 ◦)之環周底緣( )或塵垢浸入内部電 (2 0 )對應該電源 複數穿置部(2 2 ) 端處各別凸伸一凸框 外緣密封套固具有絶 密封罩(3 0 )環内 環壁面係形成有恰可 環側壁(3 1 )係密 壁,以進一步密閉該 (12),俾使該電 )不致遭受塵垢之污 並降低造成電線走火 側底緣(1 3 )與該 (25) ’當該密封 凸框座(2 1 )時, 凹缘(2 5 )内部後 ),進而使該密封罩 ),待該密封罩(3 經該蓋艘(2 〇)之 體(1 1 )之插置孔 該市電庫(1 〇 )之 201115856 内係藉由+ —具^冑 空間(1 5 )處 環底周緣(2 4 閉合該市電座( 可防止淹水(A 繼而該蓋體 置係分別貫穿有 2 )之環側緣頂 φ 凸框座(2 1 ) 3 0) ’其中該 座(2 1 )之外 壁(3 1 ),該 2 1 )的環側外 )表面的插置孔 的插置孔(1 2 内部電路系統, 籲框座(2 1 ). 一 形成有卸除凹緣 蓋體(2 〇 )之 手指扣入該卸除 該密封罩(3 〇 插座本體(1 1 預定電器插頭穿 置於電源插座本 藉此得賦予 (40),用以於該 該市電座(1 〇 )之 (50),並進一步 1 3 )處的間隙,俾 路系統; 插座本體(11)位 ,其中各穿置部(2 座(21),並使各 緣性的橡膠密封罩( 周側壁面對應該凸框 相對密閉貼合的環側 閉貼設於該凸框座( 電源插座本體(1 1 源插座本體(1 1 ) 損及淹水(A )侵入 的意外機率;另該凸 盍體(2 〇 )表面係 軍(3 〇 )套置於該 使用者可藉由尖物或 ’再進—步朝上剝離 (3 〇 )分離該電源 0 )剝離後,俾可將 穿置部(2 2 )後插 (12)使用; 底緣(1 3 )縫隙, 6 201115856 以及該電源插座本體(1 1 )之插置孔(1 2 )的防水、 防塵功能性,進以大幅降低在地窪地區的建物常因天災淹 水及塵垢流入市電座(1 0 )的内部電路系統,而引起電 路走火等意外災害,藉由本發明市電座(1 0 )之電路淹 水防護的密閉機制,進而令本發明達到電路走火等危害防 制的實用進步性者。 請參閱第6圖所示,其係該電源插座本體(1 1 )之 另一密封方式設計,其中該蓋體(20)之穿置部(22 φ )外緣端面於本實施例係為不具有凸框座(2 1 )設計, 而令密封罩(3 0 )之環側壁(3 1 )外緣大小為恰可緊 密套置於該蓋體(2 0 )之外環周壁面,俾可進一步密閉 該電源插座本體(1 1 )表面的插置孔(1 2)者。 【圖式簡單說明】 第1圖:係習知市電插座與安全插置件之分解立體圖。 第2圖:係本發明之市電座、蓋體與密封罩之分解立體圖 〇 第3圖:係本發明之市電座、蓋體與密封罩之組合立體圖 〇 第4圖:係本發明之市電座、蓋體與密封罩之組合剖視圖 ,其係顯示該示電座為淹水狀態。 第5圖:係第4圖之局部放大示意圖。 第6圖:係本發明之第二實施例之分解立體圖。 201115856 【主要元件符號說明】 習知部份 市電 座 ( 1 ) 電源插座 ( 2 ) 插置 部 ( 3 ) 安全插置件 ( 4 ) 蓋體 ( 5 ) 插端( 6 ) 本創作部份 * 市電座 ( 1 0 ) 電源插座本體 ( 11) 插置 孔 ( 1 2 ) 底缘( 1 3 ) 支架 板 ( 1 4 ) 結合空 間 ( 1 5 ) 蓋體 ( 2 0 ) 凸框座 ( 2 1 ) 穿置 部 ( 2 2 ) 嵌組部 ( 2 3 ) 底周 緣 ( 2 4 ) 卸除凹 緣 ( 2 5 ) 密封 罩 ( 3 0 ) 環側壁 ( 3 1 ) 矽利 康 ( 4 0 ) 外壁面 ( 5 0 ) 淹水 ( A )201115856 VI. Description of the Invention: [Technical Field] The present invention relates to a dustproof and waterproof socket, and more particularly to an innovative designer who can prevent the water supply of a circuit system of a utility outlet. [Prior Art] According to the 'general structure, most of the city's electric squares will be embedded inside the wall', and the city's electric squares will be powered by the central switch of the building's floor. • The central total open relationship will be collected by the power company. System, and the general public can plug all kinds of electrical plugs to be used in the mains socket, however, the plug hole of the mains socket has many conveniences for power supply in the Lido area, but behind the convenience of Lido There are also hidden big crises. For example, many young children often have their own homes in the home because of the curiosity of the original home, and a conductive wire is put into the mains socket. The serious consequences can be known. The electric shock is seriously injured, and the circuit is fired to cause a fire. There is an inventor here to prevent the tragedy from repeating itself, and the Luming is a safe insert structure; the conventional structure is shown in Figure 1. The safety insert (4) comprises an insulating cover (5) connected with a plurality of plug ends (6) at the bottom, and each plug end (6) can be inserted into the electric power of the mains (work) Socket (2) is inserted. In p (3), the user can insert the plug end (6) of the safety insert (4) into the insertion portion of the mains base (1) when the mains seat (1) is in the non-use state ( 3), and the cover body (5) closes the position of the insertion portion (3) of the power socket (2); however, the conventional structure type has found that there are still problems in the actual use experience 3 201115856 Point: Since the safety plug is inserted inside the mains socket (2), when the surface of the socket (2) has a slight space, it is easy for the construction of the lower area to flow into the mains outlet (2) to close the center of the floor at the first time. The mains outlets that have entered the water and sediment are prone to rotted silver damage, so that they are eagerly awaiting the development of a more secure fee in the above-mentioned cities. In view of this, the inventor's present invention and design experience, in response to the above, will eventually have a practical nature. [Invention] The main purpose of the present invention; the problem to be solved is to the natural disaster In the case of flooding, the problem of water and sediment flowing in the water The improvement of the problem is solved by the technical problem of the problem that the bottom edge of the power socket has a combined space, and the insertion end (6) of the component (4) is inserted into the cover body (5). The power gap, when encountering natural disasters, causing water to bubble water, soaking water and water and sediment in the circuit system, of course, the user controls the switch to prevent electrical ignition, but when its internal circuit system passes through the water After the power supply is unstable, the problem of the electric seat structure, such as the innovative technology of the mains socket, the actual use of the consumer must strive to develop the breakthrough goal and the manufacturing target of the related products for many years' detailed design and prudence After the evaluation, Alum's provides a dust-proof and waterproof socket for the existing power outlets, which is easy to make the construction of the lower-lying areas. The internal points of the electrical system inside the mains socket are mainly through a cover. The mains seat of the cover body, and the inner side of the joint space of the cover body is sealed by the outer wall of the outer wall by a stone-shaped joint of the U.S. The cover body has a through portion corresponding to the position of the power socket body, so that a convex frame seat protrudes from the upper end of the side edge of the insertion portion ring, and the convex frame seat is sleeved to seal the insulating seal of the power socket body. The cover is designed to give the bottom edge of the electric power socket and the waterproof and dustproof function of the insertion hole of the power socket main body, thereby greatly reducing the natural disaster caused by the natural disaster in the mantle area. Flooding and dust flow into the internal circuit system of the electric power station, causing accidental disasters such as circuit fire. • The sealing mechanism of the flood protection of the circuit of the utility battery of the present invention further makes the invention achieve the practical progress of the circuit fire prevention and the like. By. [Embodiment] Please refer to Figures 2 to 5, which are preferred embodiments of the dustproof and waterproof socket of the present invention, but the embodiments are for illustrative purposes only, and are not limited by the structure in the patent application; The socket comprises a cover (20) opposite to the cover and is positioned on a mains socket (10) of the power socket body (11), wherein the bottom edge (2 4 ) of the cover (20) is circumferentially Forming a joint space (15), and a predetermined position of the bottom center of the utility pole (10) receives a bracket plate (14), and the joint space (15) is formed outside the bracket plate (14) The edge is opposite to the bottom edge (13) of the electric base (10), and the inner side wall surface of the cover body (20) is provided with an embedding portion (23), and the embedding portion (23) is The inset buckle is positioned at the bottom edge (13) of the utility pole (10), and the combined space (15) 5 is insulated with a colloidal kelly ring-type caulking, whereby the sealing is combined with the outer wall surface 1 ◦ The bottom edge of the ring ( ) or the dirt is immersed in the internal electricity (2 0 ) corresponding to the power supply multiple piercing portion (2 2 ) at each end of the protruding convex frame outer edge sealing sleeve The inner wall surface of the inner ring of the inner seal ring (30) is formed with a dense wall of the side wall of the ring (3 1 ) to further seal the (12), so that the electricity is not subject to dirt and dirt and is reduced. The fire side bottom edge (1 3 ) and the (25) 'when the sealing convex frame seat (2 1 ), the concave edge (2 5 ) inside), thereby making the sealing cover), the sealing cover (3 The insertion hole of the cover (2 〇) body (1 1 ) is within the 201115856 of the city electric power (1 〇) by the circumference of the ring bottom of the space (1 5 ) (2 4 closing the mains Block (can prevent flooding (A and then the cover body is inserted through each of 2) ring side edge top φ convex frame seat (2 1 ) 3 0) 'where the seat (2 1 ) outer wall (3 1), The insertion hole of the insertion hole of the surface of the ring side of the 2 1) (1 2 internal circuit system, the frame seat (2 1 ). A finger formed with the flange cover body (2 〇) is inserted Dismount the sealing cover (3 〇 socket body (1 1 predetermined electrical plug is placed in the power socket to thereby give (40) for the city electric square (1 〇) (50), and further 1 3) Gap, winding system; socket body (11) position, each of the wearing parts (2 seats (21), and the rubber sealing cover of each edge (the circumferential side wall faces the ring side closed which should be convexly closed Attached to the convex frame base (the power socket body (1 1 source socket body (1 1) damages the accidental probability of flooding (A); the other convex body (2 〇) surface system (3 〇) set After the user can be separated by a sharp object or a 're-entry step (3 分离) to separate the power source 0), the 穿 can be used after the insertion portion (2 2 ) is inserted (12); (1 3 ) Gap, 6 201115856 and the waterproof and dustproof function of the insertion hole (1 2 ) of the power socket body (1 1 ), which greatly reduces the construction of the mantle area due to natural disasters, flooding and dust inflow. The internal circuit system of the electric power station (10) causes an accidental disaster such as a fire in the circuit, and the sealing mechanism of the flood protection of the circuit of the utility battery (10) of the present invention further enables the present invention to achieve the practical use of the circuit fire prevention and the like. Progressive. Please refer to FIG. 6 , which is another sealing design of the power socket body ( 1 1 ), wherein the outer edge end of the wearing portion (22 φ ) of the cover body (20) is not in this embodiment. The design has a convex frame seat (2 1 ), and the outer edge of the ring side wall (31) of the sealing cover (30) is sized to fit tightly around the circumferential wall surface of the cover body (20). Further, the insertion hole (12) on the surface of the power socket body (1 1 ) is sealed. [Simple description of the diagram] Fig. 1 is an exploded perspective view of the conventional power socket and safety insert. Fig. 2 is an exploded perspective view showing a mains seat, a cover body and a seal cover of the present invention. Fig. 3 is a perspective view showing a combination of a power base, a cover body and a seal cover of the present invention. Fig. 4 is a view showing a city electric stand of the present invention. A sectional view of the combination of the cover and the sealing cover, which shows that the electric stand is in a flooded state. Fig. 5 is a partially enlarged schematic view of Fig. 4. Figure 6 is an exploded perspective view of a second embodiment of the present invention. 201115856 [Explanation of main component symbols] Conventional part of the mains base (1) Power socket (2) Interposer (3) Safety insert (4) Cover (5) Plug end (6) This part of the creation * Mains Seat ( 1 0 ) Power socket body ( 11 ) Insert hole ( 1 2 ) Bottom edge ( 1 3 ) Bracket plate ( 1 4 ) Joint space ( 1 5 ) Cover ( 2 0 ) Convex frame ( 2 1 ) Wear Setting part ( 2 2 ) Embedding part ( 2 3 ) Bottom circumference ( 2 4 ) Removing the concave edge ( 2 5 ) Sealing cover ( 3 0 ) Ring side wall ( 3 1 ) Silicone ( 4 0 ) Outer wall surface ( 5 0 Flooding ( A )
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