【物品用途】; 本創作物品係一種附有機板之流體壓力缸,係在壓力流體之作用下,可使機台相對於壓力缸本體以直線狀位移之附有機台之流體壓力缸。該流體壓力缸係具有:前述壓力缸本體;以可進退於該壓力缸本體之內部的方式設置之活塞桿及2個導引桿;及連結在活塞桿及導引桿之機板(參照參考圖(1)至(3)等)。壓力缸本體係呈大致長方體狀,在其第1面具有:剖面大致圓形狀之第1溝部;在對應於活塞桿之位置夾持於第1溝部之第2溝部;剖面大致梯形狀之第4溝部;從對應於活塞桿之位置偏移的二個第1流體口;及用以將壓力缸本體安裝在未圖示之外部機器的四個第1貫通孔。第1貫通孔係延伸至與第1面相對向之第2面。此外,在前述第2面形成有:與第1溝部大致相同形狀之二個第5溝部;夾持在第5溝部之第6溝部;及變形之剖面大致梯形狀之二個第7溝部。在與第1面及第2面正交之第3面形成有剖面大致矩形狀且具有對應於導引桿之一方的凸部之第8溝部。在與第3面對向之第4面形成有:二個第2流體口;及除了形成有該第2流體口之部分與第8溝部相同形狀之第9溝部。在各圖中,第2流體口係由螺絲所塞住。在使用第2流體口時,係以螺絲塞住第1流體口。在與第1至第4面正交之第5面形成有:用以引導導引桿之二個桿導引孔;用以將壓力缸本體安裝在未圖示之外部機器的四個安裝孔;及二個空氣放出用缺口。空氣放出用缺口係即使利用安裝孔將壓力缸本體安裝在外部機器,亦可防止桿導引孔被密閉。由於壓力缸本體具有以上之構造,因此在右側視圖中,第1面係以活塞桿為中心左右非對稱,第1面與第2面係以壓力缸本體之橫剖面為中心非對稱,第3面與第4面係非對稱。在機板設置有四個第2貫通孔,利用該第2貫通孔可將未圖示之工件固定在機板。在使用之際,藉由將壓力流體從設置在前述第1面之二個第1流體口或設置在前述第4面之二個第2流體口的一方往另一方交互地供給,壓力缸本體內部之未圖示的活塞會進退,且連結在該活塞之活塞桿及連結在該活塞桿之機板及導引桿會直線地往復動作,而供物品之搬送等之用。;【創作特點】; 本創作係有關於一種「附有機板之流體壓力缸」之外形設計。配合參考圖(1)至(2)所示,本創作之本體係由大致呈矩形塊狀之壓力缸本體與藉由套設於該壓力缸本體一側面之複數之圓桿形導引桿及活塞桿連接之長矩形板狀機板所組成之特殊造形。上述壓力缸本體頂面中間形成側面為梯形之第2溝部,該第2溝部兩旁則相鄰有側面為弧形之第1溝部,其中之第1溝部係相鄰有具複數之圓形第1流體口及具前端缺口之複數圓槽形之第1貫穿孔,而位於壓力缸本體頂面前緣則形成側面為梯形之第3溝部,相對於該第3溝部之壓力缸本體頂面後緣則形成側面為梯形之第4溝部,該第4溝部後邊係形成向後凸出之凸簷狀。上述壓力缸本體前後兩面均形成有圓弧狀之凸部,並於凸部以下形成如鳩尾狀之前面之第8及後面之第9溝部,同時於前面上方具有六角槽口狀之複數圓形螺絲(第2流體口)。上述壓力缸本體右側面則具有中間圓形大槽面,於該大槽面四角端則形成複數之圓形安裝孔,該壓力缸本體右側面前後端則具有外緣之矩形槽狀空氣放出用缺口之桿導引孔,而位於該導引孔下方具有偏梯形之第7溝部,上述大槽面底面則形成複數圓弧狀之第5溝部及介於前後之第5溝部之間之曲面狀之第6溝部。上述機板左側面具有複數之圓形第2貫通孔。上述參考圖(1)係以前視圖為基準從左上方觀看機板位移之立體狀態。參考圖(2)係以後視圖為基準從左上方觀看機板位移之立體狀態。參考圖(3)係以仰視圖為基準從左下方觀看機板位移之立體狀態。以上參考圖(1)至(3)皆係顯示本創作各部件之說明。其次,顯示在各圖之表面部的大略水平平行狀細線、大略垂直平行狀細線、大略傾斜平行狀細線皆係表示立體表面之形狀的陰影線。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。[Purpose of the Article]: This creative article is a fluid pressure cylinder with a machine plate attached, which can cause the machine to be displaced in a straight line relative to the pressure cylinder body under the action of pressure fluid. The fluid pressure cylinder has: the aforementioned pressure cylinder body; a piston rod and two guide rods arranged in a manner that can move forward and backward inside the pressure cylinder body; and a machine plate connected to the piston rod and the guide rod (refer to reference figures (1) to (3) etc.). The pressure cylinder body is roughly rectangular, and has on its first surface: a first groove having a roughly circular cross-section; a second groove clamped to the first groove at a position corresponding to the piston rod; a fourth groove having a roughly trapezoidal cross-section; two first fluid ports offset from a position corresponding to the piston rod; and four first through holes for mounting the pressure cylinder body on an external machine not shown. The first through hole extends to the second surface opposite to the first surface. In addition, formed on the aforementioned second surface are: two fifth grooves having roughly the same shape as the first groove; a sixth groove clamped to the fifth groove; and two seventh grooves having a deformed roughly trapezoidal cross-section. The 8th groove portion having a roughly rectangular cross-section and a protrusion corresponding to one side of the guide rod is formed on the 3rd surface orthogonal to the 1st surface and the 2nd surface. The 4th surface opposite to the 3rd surface is formed with: two 2nd fluid ports; and a 9th groove portion having the same shape as the 8th groove portion except for the portion where the 2nd fluid ports are formed. In each figure, the 2nd fluid port is plugged with a screw. When the 2nd fluid port is used, the 1st fluid port is plugged with a screw. The 5th surface orthogonal to the 1st to 4th surfaces is formed with: two rod guide holes for guiding the guide rod; four mounting holes for mounting the pressure cylinder body on an external machine not shown; and two notches for air release. The air release notch prevents the rod guide hole from being sealed even if the pressure cylinder body is mounted on an external machine using the mounting hole. Since the pressure cylinder body has the above structure, in the right side view, the first surface is asymmetric with the piston rod as the center, the first surface and the second surface are asymmetric with the cross section of the pressure cylinder body as the center, and the third surface and the fourth surface are asymmetric. Four second through holes are provided on the machine plate, and the workpiece not shown in the figure can be fixed on the machine plate by using the second through holes. When in use, by alternately supplying the pressurized fluid from one of the two first fluid ports provided on the aforementioned first surface or the two second fluid ports provided on the aforementioned fourth surface to the other, the piston (not shown) inside the pressure cylinder body will move forward and backward, and the piston rod connected to the piston and the plate and guide rod connected to the piston rod will reciprocate linearly for the purpose of transporting articles, etc.; [Design Features]; This design is about the appearance design of a "fluid pressure cylinder with a plate". As shown in reference figures (1) to (2), the main body of the invention is a special shape composed of a pressure cylinder body that is roughly rectangular and a long rectangular plate-shaped machine plate connected by a plurality of round rod-shaped guide rods and a piston rod sleeved on one side of the pressure cylinder body. A second groove with a trapezoidal side is formed in the middle of the top surface of the pressure cylinder body, and the first groove with an arc-shaped side is adjacent to the second groove on both sides, wherein the first groove is adjacent to a plurality of circular first fluid ports and a plurality of circular groove-shaped first through holes with a front end notch, and a third groove with a trapezoidal side is formed at the front edge of the top surface of the pressure cylinder body, and a fourth groove with a trapezoidal side is formed at the rear edge of the top surface of the pressure cylinder body opposite to the third groove, and a convex eave protruding backward is formed behind the fourth groove. The pressure cylinder body has arc-shaped protrusions on both the front and rear surfaces, and the 8th groove on the front surface and the 9th groove on the rear surface are formed below the protrusions, and multiple hexagonal notch-shaped round screws (second fluid port) are provided on the front upper surface. The right side surface of the pressure cylinder body has a central circular large groove surface, and multiple circular mounting holes are formed at the four corners of the large groove surface. The front and rear ends of the right side of the pressure cylinder body have a rod guide hole with a rectangular groove-shaped air release notch on the outer edge, and the 7th groove with a partial trapezoidal shape is located below the guide hole. The bottom surface of the large groove surface forms multiple arc-shaped 5th grooves and a curved 6th groove between the front and rear 5th grooves. The left side of the above-mentioned machine plate has a plurality of circular second through holes. The above-mentioned reference figure (1) is a three-dimensional state of the machine plate displacement viewed from the upper left based on the front view. Reference figure (2) is a three-dimensional state of the machine plate displacement viewed from the upper left based on the rear view. Reference figure (3) is a three-dimensional state of the machine plate displacement viewed from the lower left based on the top view. The above-mentioned reference figures (1) to (3) are all descriptions of the various components of this creation. Secondly, the roughly horizontal parallel thin lines, roughly vertical parallel thin lines, and roughly inclined parallel thin lines shown on the surface of each figure are all shaded lines representing the shape of the three-dimensional surface. The overall shape of this creation composed of the above is exquisite and unique, with novel and unique visual effects and creativity.