M336825 八、新型說明: 【新型所屬之技術領域】 本創作像有關於一種喷槍之分流片構造,特別是指分 流片設有凸垣緊貼於喷槍組件上,而使分流之氣體不紊亂= 【先前技術】 按,噴搶係一種高效益、經濟且方便之工具,對於各 種漆料均能有快速、簡便之工作效益,如第四圖、第五圖 籲所示,習知噴槍之分流片(F)係設有一凸柱(F1),該凸 柱(F1)係定位於喷槍(E)上,使用時,輸入喷搶(e) 之高壓氣體經由喷搶頭之前端面二弧曲彎凹槽(El)、(E2) 内之二出氣孔道(E3) 、(E4)出氣,而進入分流片(F) 對接之兩凹室(F2) 、(F3)中,而於此分流片(F)中緩 穩氣壓,再由其内側之透空槽孔(F4)以及外侧之透空槽 孔(F5 )分流至連結座(G )相密抵後侧面之内環凹槽(a )、 外環凹槽(G2),内環侧之氣流如第四圖所示,外環侧之 籲氣流如第五圖所示,然,其分流片(F)兩面係為平面之片 •體,其雖與連結座(G)之氣孔相對應,但卻無法形成密閉 之氣室,易造成氣體互通而產生紊亂,進而影響漆料而無 法有效控制漆料喷出之範圍,且分流片(F)需設凸柱(F1) 以定位於喷搶(E)上,組裝時需注意其對應位置,組裝費 時。 、、 【新型内容】 本創作係提供一種喷槍之分流片構造,以決解分流片 導通氣體造成紊亂而影響漆料喷出範圍之問題。 5 M336825 - 本創作係一種喷搶之分流片構造,係一片體而具有相 對之兩面,並於兩面各環設有凸垣而各形成有内環與外 環肖内環内係设有南度差為一氣室,又,内環與外環内 各環列形成有適距相離且貫穿片體之槽孔。 上述内環之槽孔與外環之槽孔,係為交錯排 作具有之優點在於: 1·分流片兩面之凸垣形成之氣室係緊貼於噴搶之相對 籲應組件上成為密閉之氣室,可使流經之氣流於外環、内環 各自流通不會使氣流發生紊亂,而更精確控制漆料喷出之 均勻度及其範圍。 、 2.該分流片直接組裝於喷槍頭上,不需另設凸柱定 位,組裝簡便。 【實施方式】 本創作’如第一圖所示’該分流片⑴係一片體而具 有相對之兩面’並於兩面各環設有凸垣⑴)而各形成有 •内壤(12)與外環(13),該内環(12)内設有高度差為 -氣室’又於内環(12)與外環(13)内各環列形成有適 距相離且貫穿片體之槽孔(14),該内環(12)之槽孔( 與外環(13)之槽孔(14),係為交錯排列。 組合時’如第二圖所示,喷搶(A)之喷槍頭(⑴出 氣端面中央伸出調節針桿(A2),使其端面形成内環凹槽 々(A3=、外ί衣凹槽(A4),又,其外環凹槽(A4)内設有 ^氣孔道(A5)、第二氣孔道(A6),該喷槍(a)之内 環凹槽(A3)内組設有連結座⑻,該連結座(β)内設 6 M336825 一中空管(B1),其端部係設有第一環溝(B2),該第一 環溝(B2 )内對應第二氣孔道(A6 )處設有第三氣孔道(), 而刀々丨l片(1 )係組設喷搶頭(a 1 )之外環凹槽(A4 )内, 且分流片(1)其一面之凸垣(Π)係組設貼於連結座(B) 之鳊面係與第一環溝(B2 )相對應,而分流片(1)内環(12 ) 内之容置空間係與第一環溝(B2)形成一密閉之氣室,又, 嘴嘴(C)係螺設於連結座(β)前段,該嘴嘴([)總 籲係與分流片(1)另一面之凸垣(11)對應組設貼合,而喷 嘴(C)之端面環設有若干之氣孔(ci)係與分流片(1) 之内環(12)環列之槽孔(14)及連結座(β)其第一環溝 (Β2)之第三氣孔道(Β3)相連通,而噴頭(D)係設於喷 嘴(C )前部係形成之圓形凹陷對應喷頭(〇 )内部,另於 喷頭(D)外部設有喷氣孔(D1),該喷氣孔(D1)係與分 流片(1)外環(13)環列之槽孔(14)及喷搶頭(A1)外 壤凹槽(A4)内之第一氣孔道(A5)相連通,又,喷頭(D) 籲圓形凹陷之中央並形成喷孔(1)2),且喷頭(D)套合連結 螺帽(D3),且螺合於喷槍頭(A1)上。 使用時,如第三圖所示,輸入喷槍(A)之高壓氣體經 由喷% (A)之第一氣孔道(A5)及第二氣孔道(A6)對應 連結座(B)之第三氣孔道(B3)出氣,而進入分流片(1} 對接之内環(12)之環列槽孔(14)及外環(13)内環列 槽孔(14)中,流經槽孔(14)之氣體再由喷嘴(c)之氣 孔(C1)流向噴孔(D2)而出,流經槽孔(丨4)之氣體再 由嘴頭(D)之噴氣孔(D1)噴出,以有效控制漆料喷出之 7 M336825 範圍,分流片(1)其兩面之凸垣(U)係各自緊抵於連鈐 座(B)之端面及喷嘴(C)之端面,由於分流片(丨)内環 Π2)内之氣室係與第一環溝(B2)形成一密閉之氣室, 氣流於外環(12)、内環(13)各自流通不會使氣流發生 .紊亂,再由槽孔(14)通過之氣流不會造成紊亂,而更精 確控制漆料喷出之均勻度及其範圍。 【圖式簡單說明】 _ 第一圖係為本創作之立體圖。 第二圖係為本創作之組合於噴搶頭之剖視圖。 第三圖係為本創作之氣體流通之示意圖。 第四圖係為習知内環侧氣體流通之示意圖(一)。 第五圖係為習知外環侧氣體流通之示意二。 主要元件符號說明】 (1) 分流片 (11) 凸垣 (12) 内環 (13) 外環 (14) 槽孔 (A) 喷槍 (A1) 噴搶頭 CA2) 調節針桿 (A3) 内環凹槽 (A4) 外環凹槽 (A5) 第一氣孔道 (A6) 第二氣孔道 ⑻ 連結座 (B1) 中空管 (B2) 第一環溝 (B3) 第三氣孔道 (C) 噴嘴 (C1) 氣孔 (D) 噴頭 (D1) 喷氣孔 (D2) 噴孔 8 M336825 (D3) 螺帽 (E) 喷槍 (El) 弧曲彎凹槽 (E2) 弧曲彎凹槽 (E3) 出氣孔道 (E4) 出氣孔道 (F) 分流片 (F1) 凸柱 (F2) 凹室 (F3) 凹室 (F4) 槽孔 (F5) 槽孔 (G) 連結座 (Gl) 内環凹槽 (G2) 外環凹槽M336825 VIII, new description: [New technical field] This creation is related to the structure of a splitter of a spray gun, especially the splitter is provided with a tenon that is attached to the spray gun assembly, so that the shunting gas is not disordered. = [Prior Art] Press, spray is a high-efficiency, economical and convenient tool, which can have quick and simple work benefits for all kinds of paints, as shown in Figure 4 and Figure 5, the known spray gun The splitter (F) is provided with a stud (F1) which is positioned on the spray gun (E). When in use, the high pressure gas input into the spray (e) is passed through the front end of the spray head. The two air outlets (E3) and (E4) in the curved bends (El) and (E2) are exhausted, and enter the two recesses (F2) and (F3) where the splitter (F) is butted. The steady pressure is set in the splitter (F), and then the inner through hole (F4) and the outer through hole (F5) are shunted to the inner ring groove of the joint (G) which is in close contact with the rear side ( a), the outer ring groove (G2), the air flow on the inner ring side is as shown in the fourth figure, and the air flow on the outer ring side is as shown in the fifth figure. The two sides of the flow sheet (F) are flat sheets and bodies. Although they correspond to the air holes of the joint seat (G), they cannot form a closed air chamber, which is liable to cause gas intercommunication and disorder, thereby affecting the paint. Effectively control the range of paint spray, and the splitter (F) needs to be provided with a stud (F1) to be positioned on the spray (E). The assembly should pay attention to its corresponding position, and the assembly takes time. [, new content] This creation provides a splitter structure for the spray gun to resolve the problem that the splitter conducts gas causing disturbances and affecting the spray range of the paint. 5 M336825 - This creation is a split-split piece structure with one body and two opposite sides. It has a convex ring on each side of the ring and each has an inner ring and an outer ring. The difference is a gas chamber, and the inner ring and the inner ring in the outer ring form a slot which is spaced apart from each other and penetrates through the sheet body. The slot of the inner ring and the slot of the outer ring are staggered and have the advantages that: 1. The air chamber formed by the protrusions on both sides of the splitter is closely attached to the opposite component of the spray to become sealed. The gas chamber can make the flow of the gas flowing through the outer ring and the inner ring without turbulence, and more precisely control the uniformity and range of the paint spray. 2. The splitter piece is directly assembled on the spray gun head, and no additional positioning of the stud is required, and the assembly is simple. [Embodiment] This creation 'shows as shown in the first figure'. The splitter (1) is a piece of body with opposite sides and has a ridge (1) on each side of the ring, and each has a built-in inner (12) and outer a ring (13) having a height difference of - a gas chamber in the inner ring (12) and a groove formed in the inner ring (12) and the inner ring (13) at a proper distance and extending through the body The hole (14), the slot of the inner ring (12) and the slot (14) of the outer ring (13) are staggered. When combined, as shown in the second figure, the spray (A) is sprayed. The tip of the gun (1) protrudes from the center of the outlet end face to adjust the needle bar (A2), so that the end face forms an inner ring groove 々 (A3=, outer yoke groove (A4), and its outer ring groove (A4) is built in There is a gas tunnel (A5) and a second air tunnel (A6). The inner ring groove (A3) of the spray gun (a) is provided with a joint seat (8), and the joint seat (β) is provided with 6 M336825 one. The empty pipe (B1) has a first annular groove (B2) at its end, and a third air hole () is disposed in the first annular groove (B2) corresponding to the second air passage (A6), and the blade丨l piece (1) is set in the outer ring groove (A4) of the spray head (a 1 ), and The split piece (1) has a convex Π on one side, and the 鳊 surface attached to the joint (B) corresponds to the first annular groove (B2), and the inner part (12) of the splitter (1) The accommodating space forms a closed air chamber with the first annular groove (B2), and the nozzle (C) is screwed to the front portion of the connecting seat (β), and the mouth ([) is always attached to the splitter (1) The other side of the tenon (11) corresponds to a set of fits, and the end face of the nozzle (C) is provided with a plurality of air holes (ci) and a groove of the inner ring (12) of the splitter (1) The hole (14) and the joint seat (β) are connected to the third air passage (Β3) of the first annular groove (Β2), and the nozzle (D) is disposed in the circular recess formed by the front portion of the nozzle (C). Inside the nozzle (〇), there is a gas jet hole (D1) outside the nozzle (D), and the gas jet hole (D1) is a slot (14) of the outer ring (13) of the splitter piece (1) and The first air hole (A5) in the outer groove (A4) of the spray head (A1) is connected, and the head (D) is called the center of the circular recess and forms the spray hole (1) 2), and the spray The head (D) is fitted with a coupling nut (D3) and screwed onto the spray gun head (A1). When used, as shown in the third figure It is shown that the high pressure gas input into the spray gun (A) is discharged through the first air passage (A5) of the spray % (A) and the third air passage (B3) of the second air passage (A6) corresponding to the joint (B). Entering the annular groove (14) of the inner ring (12) of the splitter piece (1) and the inner ring groove (14) of the outer ring (13), the gas flowing through the slot (14) is again used by the nozzle ( c) The air hole (C1) flows toward the injection hole (D2), and the gas flowing through the hole (丨4) is ejected from the gas injection hole (D1) of the nozzle (D) to effectively control the discharge of the paint. In the M336825 range, the splitter (1) on both sides of the splitter (1) is in close contact with the end face of the shackle (B) and the end face of the nozzle (C), due to the gas in the inner ring Π 2) of the splitter (丨) The chamber and the first annular groove (B2) form a closed air chamber, and the air flow in the outer ring (12) and the inner ring (13) respectively does not cause airflow, disorder, and then the airflow passing through the slot (14) It does not cause disturbances, but more precisely controls the uniformity and range of paint spray. [Simple description of the drawing] _ The first picture is a perspective view of the creation. The second picture is a cross-sectional view of the combination of the creation of the squirting head. The third picture is a schematic diagram of the gas circulation of the creation. The fourth figure is a schematic diagram (1) of the gas circulation on the inner ring side of the prior art. The fifth figure is the schematic 2 of the conventional outer ring side gas circulation. Explanation of main component symbols] (1) Splitter (11) Tab (12) Inner ring (13) Outer ring (14) Slot (A) Spray gun (A1) Spray head CA2) Adjust the needle bar (A3) Ring groove (A4) Outer ring groove (A5) First air channel (A6) Second air channel (8) Connection seat (B1) Hollow tube (B2) First ring groove (B3) Third air channel (C) Nozzle (C1) Air Hole (D) Nozzle (D1) Jet Hole (D2) Nozzle 8 M336825 (D3) Nut (E) Spray Gun (El) Arc Bend Groove (E2) Arc Bend Groove (E3) Venting passage (E4) Venting passage (F) Splitter (F1) Stud (F2) Alcove (F3) Alcove (F4) Slot (F5) Slot (G) Joint (Gl) Inner ring concave Groove (G2) outer ring groove