【物品用途】;本創作物品係有關一種「過濾調節器」,係將存在於壓縮空氣等壓力流體中之水分或固態物予以去除,並且可將壓力流體調壓成所希望之壓力的過濾調節器。在使用之際,利用未圖示之連接手段將未圖示之壓力流體供給源連接在壓力流體導入口,同樣地將未圖示之流體壓機器連接在壓力流體排出口。並且,旋轉把手將調壓彈簧設定為所希望之壓力,並透過隔膜調整施加至閥體之推壓力。然後,在壓力流體供給源之驅動作用下,將壓力流體供給至壓力流體導入口。於是,壓力流體會藉由轉向器而旋轉於殼體內部,包含在壓力流體之水分係藉由離心力朝殼體之內壁飛散,且從壓力流體分離。所分離之水分係沿著殼體之內壁貯留在殼體下部而成為排水。另一方面,壓力流體中之氣體係通過過濾元件,且氣體中所含之固態物會被去除。在此之期間,閥體會藉由調壓彈簧之壓力、與作用在隔膜之壓力流體的壓力之差而動作,壓力流體係調壓為所希望之壓力。在排水或固態物被去除且壓力經調整之後,壓力流體係經由壓力流體排出口供給至流體壓機器。貯留在殼體下部之排水係可透過透明之殼體來辨識。當打開排水拴時,所貯留之排水會從殼體排出。;【創作特點】;本創作係有關於一種「過濾調節器」之外形設計。配合前視圖、側視圖、俯視圖、參考圖(1)及參考圖(2)等所示,該過濾調節器係由把手、嵌合有把手之罩蓋、由罩蓋及螺栓所連結的本體、及嵌合在本體之透明的殼體所構成(參照參考圖(1))。把手係呈圓筒狀,在其外周朝軸線方向具有複數個凸條部。在罩蓋之內部收納有未圖示之調壓彈簧,該調壓彈簧係藉由把手之旋轉而壓縮或伸長,並調整朝後述之隔膜施加的推壓力。本體係朝殼體具有開口部,在本體之兩側面形成有與前述開口部連通之壓力流體導入口(參照參考圖(1))及壓力流體排出口(參照參考圖(2))。在本體之內部設置有未圖示之隔膜、及與該隔膜連接且用以開閉壓力流體之連通路(未圖示)之未圖示之閥體。在透明之殼體的內部,收納有連設在本體之圓筒狀的過濾元件、及設置在過濾元件之下端的檔板。在前述過濾元件與本體之接合部,設置有圓環狀之轉向器。在殼體下端則設置有排水栓。在右側視圖及左側視圖中,壓力流體導入口及壓力流體排出口之周圍係形成為大致方形狀。在大致方形狀之長邊方向的兩端部,膨出有與連結未圖示之其他流體壓機器之連接具卡合之凸緣,另一方面,在大致方形狀之短邊方向,與軸方向垂直地設置有二條溝。在殼體之上部,沿著外周設置有複數個凸條部。在罩蓋設置有大致半圓形之小突起。參考圖(1)及(2)係顯示本創作之立體狀態及另一立體狀態之各部件說明。由上述構成本創作整體造形精巧別緻,具新穎特異之視覺效果及創作性。[Use of the item] This creation is about a "filter regulator", which removes water or solids in pressure fluids such as compressed air, and can regulate the pressure of the pressure fluid to a desired pressure. When in use, a pressure fluid supply source (not shown) is connected to the pressure fluid inlet by a connection means (not shown), and a fluid pressurizer (not shown) is similarly connected to the pressure fluid outlet. Furthermore, the handle is rotated to set the pressure regulating spring to the desired pressure, and the pushing pressure applied to the valve body is adjusted through the diaphragm. Then, under the driving action of the pressure fluid supply source, the pressure fluid is supplied to the pressure fluid inlet. Then, the pressure fluid rotates inside the housing through the diverter, and the water contained in the pressure fluid is scattered toward the inner wall of the housing by centrifugal force and separated from the pressure fluid. The separated water is stored in the lower part of the housing along the inner wall of the housing and becomes drainage. On the other hand, the gas in the pressure fluid passes through the filter element, and the solid matter contained in the gas is removed. During this period, the valve body is moved by the difference between the pressure of the pressure regulating spring and the pressure of the pressure fluid acting on the diaphragm, and the pressure of the pressure fluid is regulated to the desired pressure. After the drainage or solid matter is removed and the pressure is adjusted, the pressure fluid is supplied to the fluid press through the pressure fluid outlet. The drainage retained in the lower part of the shell can be identified through the transparent shell. When the drain plug is opened, the retained drainage will be discharged from the shell. ;【Features of the creation】;This creation is related to the appearance design of a "filter regulator". As shown in the front view, side view, top view, reference figure (1) and reference figure (2), the filter regulator is composed of a handle, a cover with a handle embedded, a main body connected by the cover and bolts, and a transparent shell embedded in the main body (refer to reference figure (1)). The handle is cylindrical and has a plurality of convex strips on its outer circumference in the axial direction. A pressure regulating spring (not shown) is housed inside the cover. The pressure regulating spring is compressed or extended by the rotation of the handle and adjusts the thrust applied to the diaphragm described later. The main body has an opening toward the shell, and a pressure fluid inlet (refer to reference figure (1)) and a pressure fluid outlet (refer to reference figure (2)) connected to the aforementioned opening are formed on both sides of the main body. A diaphragm (not shown) and a valve body (not shown) connected to the diaphragm and used to open and close a communication path (not shown) for the pressure fluid are arranged inside the main body. Inside the transparent shell, there are housed a cylindrical filter element connected to the main body and a baffle plate arranged at the lower end of the filter element. A circular annular diverter is provided at the joint between the aforementioned filter element and the main body. A drain plug is provided at the lower end of the shell. In the right side view and the left side view, the periphery of the pressure fluid inlet and the pressure fluid outlet is formed in a roughly square shape. At both ends of the roughly square shape in the long side direction, there are bulging flanges that engage with connectors that connect to other fluid presses not shown. On the other hand, in the short side direction of the roughly square shape, two grooves are provided perpendicular to the axial direction. On the upper part of the shell, a plurality of convex strips are provided along the outer periphery. A roughly semicircular small protrusion is provided on the cover. Reference Figures (1) and (2) show the three-dimensional state of this creation and the description of each component in another three-dimensional state. The overall shape of this creation composed of the above is exquisite and unique, with novel and unique visual effects and creativity.