201102509 六、發明說明: 【發明所屬之技術領域】 本發明是有關一種螺旋式壓 調整滑閥軸向# $ 、.機特別是指用以 晃動的元件传句杯亡 _ 八文穩矛夕動不 支軸以及-對平板型襯塊。 移位之偏心 【先前技術】201102509 VI. Description of the invention: [Technical field of the invention] The present invention relates to a screw-type pressure-adjusting spool axial direction # $ , , ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, Non-supporting shaft and - pair of flat type pads. Displacement eccentricity [prior art]
賢式壓縮機,主要在壓縮機的外殼側, 轉子;固:行的轴孔’各軸孔分別提供-對圓柱形 3子圓周且呈螺旋狀之延伸葉片和凹槽,.轉動7: 2過兩轉子相互,合並且以螺紋狀葉片緊密 動’以一個轉子葉片嚅合另一轉子上對應的凹槽,形 成j轉子之間一系列的體積變化。當轉子在連續轉動 過程中,透過葉片間體積的連續變化,逐步達到氣體 的壓縮,最後再將被壓縮的氣體向外殼的相對端= 放〇 上述之轉子,其一側係設有一可作軸向移動之滑 閥,藉由調整滑閥的軸向位置,可決定壓縮氣體的排 氣谷積比例;而且,在滑閥的一端復設有一可用以調 整其軸向位置之止閥塊。 傳統之螺旋式壓縮機’如第1A圖所示之美國第 M〇9,490號專利案’該美國第6,4〇9,490號專利案揭 示—對設於轉子室内壁之凸字形襯套11、21,該凸 201102509 字形襯套11、21主要提供轉子的轉軸通過,並且用 以協助定位止閥塊’以便穩定控制滑閥的位置。 請參第1B圖所示’該凸字形襯套1:1、21,包含 一平板12、22以及一自平板一端面向外延伸之凸管 部13、23,襯套11、21的中央設有穿孔14、24以 供轉子的轉轴通過。 惟,經過Λ地製造測試發現,由於凸字形襯套 11是在平板的側端面另外再形成具有一橫向深度之 凸管部13。如此將使凸字形襯套η在加工製造時, 不僅需要同時考慮平板外徑和凸管部外徑的同心圓 問題,增加加工的困難度,而且容易影響平板外徑和 止閥塊之間隙的控制,進而影響止閥塊的穩定性。 此外,美國第6,409,490號專利案所揭示,直嗖 於滑閥20另端之止閥塊25,係受到一設於其圓二處 的支軸ίο所推動’由於該支軸1〇位於止間塊25的 圓心,所以無法當成是一種防止止閥塊晃動或旋轉的 機構,如此當以支軸10推動止閥塊25移位時,止閥 塊25會容易地在移位過程中產生晃動,壓縮機因此 容易產生異音,嚴重者甚至造成止閥塊與轉子互相干 涉磨擦。 【發明内容】 發明人有鑑於前述先前技術之缺點,乃依其從事 各種研磨機之製造經驗和技術累積,針對上述缺失悉 201102509 。研九各種解决的方法,在 改良德,欲於„欲 < 所的研究、貫驗與 術所產生之缺失。 ㈣ 因此,本發明之主要目的在提供— 機衮藉t卜坰敕Μ槐 種螺^疋式壓縮 χ . ^ ^ 〇 m 便止閥塊的移位更為穩定 不晃動’而且用以控制止閥塊定 工之特性者。 易加 -· &本發明之螺旋式壓縮機容積比調整機構之改 進’其止閥塊係受到一偏心設置的支軸所推動,配合 設於止閥塊-端之平板型襯塊,因為可容易控制平: 型襯塊和止閥塊之間的間隙,所以可確保止閥塊移位 。時不會產生晃動’使容積比例的控制更容易確實,愿 鈿機不會產生異音,為本發明之次一目的。 依本發明之螺旋式壓縮機容積比調整機構之改 進,藉由將襯塊改為平板型,使襯塊加工時僅需考慮 • 其外徑的尺寸,加工相對簡易且公差控制得更為精 準,可避免習見凸字形襯套加工時需考慮過多組合: 差累計的問題,為本發明之再一目的。 依本發明之螺旋式壓縮機容積比調整機構之改 進’由於襯塊改為平板型,襯塊可直接作為轉子端面 和轉子室内壁之介面元件,由於襯塊的作用僅為固定 及保持和止閥塊之有效間隙,在容易加工的前題下, 轉子室内壁若因加工偏差而導致誤差過大時,可藉由 槪塊的厚度來調整與轉子間的間隙,提高壓縮機效 201102509 率’為本發明之又一目的。 、_依本發明之螺旋式壓縮機容積比調整機構之改 進4曰由襯塊為容易加工之平板型,當壓縮機因使用 不當導致轉子和平板型襯塊碰觸時,直接更換襯塊即 ^持轉子的間隙,可免除習見者必需更換壓縮機外 殼之成本與不便,為本發明之又一目的。 為便責審查委員能對本發明之目的、形狀、構 4裳置特徵及其功效,做更進一步之認識與瞭解,茲 舉實施例配合圖式,詳細說明如下: 【實施方式】 本發明之螺旋式壓縮機容積比調整機構之改 進’如第2圖所示,該螺旋式壓縮機3,其外殼内部 係設有兩個轉子軸孔31、32,以提供公轉子41和母 轉子51 (如第3圖所示)裝入後’公轉子41和母轉子 51得藉凹槽和旋葉片相互嚅合轉動。 請參照第4圖所示,在公轉子41和母轉子51裝 入螺旋式壓縮機3内部之前,在轉子室30内壁前端, 即位於轉子抽孔31、32處,各設有一可用以貼附於 轴孔31、32壁面之襯套42、52(如第5圖所示)。 請參照第6圖所示,該所述之襯套42、52,為 非圓形面之平板狀’其對靠處各形成一切邊421、 521,其中間設置穿孔422、522,該穿孔422、522 和轉子軸孔31、32相通,使公轉子41和母轉子51 201102509 的轉軸得同時穿過穿孔422、522和轉子軸孔31、32 而固定。 如第5圖所示,當襯套42、52安裝固定於轉子 至内壁面後,其和止閥塊6係保持著相當微小的間 隙。而藉由襯套42、52為平板狀設計,其加工時僅 而考慮與止閥塊6的距離是否保持在標準間隙之内 即可’相較於習見凸字形襯套,製作加工困難度及公 差的/空制等均會簡化很多,因此,此平板式襯套42、 2知:供了谷易精準控制止閥塊6定位的優點。 睛續參照第4圖所示,本發明之螺旋式壓縮機容 積比調整機構之改進,更進一步使調整止闊塊6位置 =支軸6!為偏心設置。藉由此偏心設置之支轴I 推動止滑塊6移位時,可避免圓心推動容易產 的問題,進一步提供止閱塊6安穩定位的特點。 因此,藉由如上所述,透過平板型 提供止閥塊6不論前後二 次者在轉切轉㈣m料^ 而提昇滑閥控制的精準度。 个无動,進 又,附帶說明的是,由於襯套42、 型,使得轉子端部和韓子 文為平板 Μ的厚度來調整。甚至,當 :精由襯套 因不當使用或外力01$ 使用過程中, 飞外力因素導致轉子端部Xian compressor, mainly on the outer casing side of the compressor, the rotor; solid: row of shaft holes 'each shaft hole respectively provide - the extension of the cylindrical 3 sub-circle and spiral blade and groove,. Rotation 7: 2 The two rotors are coupled to each other and are tightly moved by a threaded blade to couple a corresponding groove on the other rotor with one rotor blade to form a series of volume changes between the j rotors. During the continuous rotation of the rotor, the gas is compressed gradually through the continuous change of the volume between the blades, and finally the compressed gas is directed to the opposite end of the casing = the rotor is placed on the rotor, and one side is provided with a shaft To the moving spool valve, by adjusting the axial position of the spool valve, the ratio of the exhaust gas valley of the compressed gas can be determined; and at the end of the spool valve, a check valve block for adjusting the axial position thereof is provided. A conventional screw compressor is disclosed in the U.S. Patent No. 5,490, the disclosure of which is incorporated herein by reference in its entirety by U.S. Pat. The convex 201102509-shaped bushings 11, 21 mainly provide a shaft through which the rotor passes, and serve to assist in positioning the check block 'to stabilize the position of the spool. Referring to FIG. 1B, the chevron bushings 1:1 and 21 include a flat plate 12, 22 and a convex pipe portion 13, 23 extending outward from one end of the flat plate. The bushings 11 and 21 are provided at the center. The perforations 14, 24 are passed through the shaft of the rotor. However, it has been found through the squatting manufacturing test that the convex bush portion 13 having a lateral depth is additionally formed on the side end surface of the flat plate. In this way, the convex bushing η is not only required to simultaneously consider the concentric circle problem of the outer diameter of the flat plate and the outer diameter of the convex portion, but also increases the difficulty of processing, and easily affects the outer diameter of the flat plate and the gap between the valve blocks. Control, which in turn affects the stability of the stop block. In addition, as disclosed in U.S. Patent No. 6,409,490, the valve block 25, which is located at the other end of the spool valve 20, is urged by a fulcrum provided at its circle 2 because the fulcrum 1 〇 is located at the stop The center of the block 25 cannot be regarded as a mechanism for preventing the valve block from shaking or rotating, so that when the fulcrum 10 pushes the check valve block 25 to be displaced, the check valve block 25 can easily sway during the shifting process. The compressor is therefore prone to abnormal noise, and in severe cases, the valve block and the rotor interfere with each other. SUMMARY OF THE INVENTION The inventors have in view of the above-mentioned shortcomings of the prior art, and have been involved in the manufacturing experience and technical accumulation of various types of grinding machines, and the above-mentioned deficiencies are known to 201102509. Studying the various methods of solving the problem, in the improvement of morality, the desire for the study, the examination and the lack of the production. (4) Therefore, the main purpose of the present invention is to provide螺 疋 χ χ ^ ^ ^ ^ ^ 〇 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀 阀The improvement of the machine volume ratio adjusting mechanism's stop valve block is driven by an eccentrically set fulcrum, and fits on the flat type pad provided at the stop block end, because the flat: type pad and the stop block can be easily controlled. The gap between them can ensure the displacement of the valve block. There is no sloshing when it is made. The control of the volume ratio is easier to be sure. It is hoped that the noise will not produce abnormal sound, which is the second object of the present invention. The improvement of the volume ratio adjustment mechanism of the screw compressor, by changing the pad to the flat type, the pad can only be processed when considering the size of the outer diameter. The processing is relatively simple and the tolerance control is more precise. Too many combinations need to be considered when machining a zigzag bushing: The problem of the difference accumulation is another object of the invention. The improvement of the volume ratio adjusting mechanism of the screw compressor according to the invention 'Because the pad is changed to the flat type, the pad can directly serve as the interface component of the rotor end face and the inner wall of the rotor Since the function of the pad is only the effective clearance of the fixed and holding and stopping valve blocks, if the error is too large due to machining deviation under the premise of easy processing, the thickness of the block can be adjusted by the thickness of the block. The gap between the rotors and the improvement of the compressor efficiency 201102509 rate' is another object of the present invention. _ The improvement of the volume ratio adjusting mechanism of the screw compressor according to the present invention is improved by the pad type for the easy processing. When the machine is in contact with the rotor and the flat type pad, the gap between the rotor and the flat plate can be directly replaced, which can eliminate the cost and inconvenience that the reader must replace the compressor casing, which is another object of the present invention. The responsible review committee can make a further understanding and understanding of the purpose, shape, structure and function of the present invention, and the embodiments are combined with the drawings to explain in detail Next: [Embodiment] Improvement of the volume ratio adjusting mechanism of the screw compressor of the present invention As shown in Fig. 2, the screw compressor 3 has two rotor shaft holes 31, 32 inside the casing to After the male rotor 41 and the female rotor 51 are provided (as shown in Fig. 3), the male rotor 41 and the female rotor 51 are rotated by the grooves and the rotary blades. Referring to Fig. 4, the male rotor is shown. Before the female rotor 51 and the female rotor 51 are housed inside the screw compressor 3, at the front end of the inner wall of the rotor chamber 30, that is, at the rotor suction holes 31, 32, a bushing 42 for attaching to the wall surfaces of the shaft holes 31, 32 is provided. 52 (as shown in Fig. 5). As shown in Fig. 6, the bushings 42, 52 are in the form of a flat plate having a non-circular surface, and each of the pair of seats forms a circum 421, 521. The through holes 422, 522 are disposed therebetween, and the through holes 422, 522 and the rotor shaft holes 31, 32 communicate with each other, so that the rotating shafts of the male rotor 41 and the female rotor 51 201102509 are simultaneously fixed through the through holes 422, 522 and the rotor shaft holes 31, 32. . As shown in Fig. 5, when the bushings 42, 52 are mounted and fixed to the inner wall surface of the rotor, they maintain a relatively small gap with the check valve block 6. However, since the bushings 42 and 52 have a flat design, it is only necessary to consider whether the distance from the check valve block 6 is kept within the standard gap during processing, and it is difficult to manufacture and process compared with the conventional chevron bushing. Tolerance/empty, etc. are all simplified. Therefore, the flat bushings 42 and 2 are known to provide the advantage of the easy positioning of the valve block 6 by the valley. Referring to Fig. 4, the improvement of the volume ratio adjusting mechanism of the screw compressor of the present invention further makes it possible to adjust the stop block 6 position = the support shaft 6! When the yaw-set fulcrum I is pushed to move the stop slider 6, the problem of easy production of the center of the core can be avoided, and the stability of the block 6 is further provided. Therefore, by providing the check valve block 6 through the flat type as described above, the accuracy of the spool control can be improved regardless of whether the front and the rear are turned (cut). There is no movement, and it is noted that, due to the bushing 42 and the type, the rotor end portion and the Korean sub-section are adjusted for the thickness of the flat plate. Even when: fine by the bushing due to improper use or external force 01$ during use, the external force factor causes the rotor end
不當接觸或干涉砗,千至產生 紅 ^ 也可以藉由對襯套42、u A 新加工修整,或者更_套42、5 # 42θ Μ的重 來獲得改善。此 201102509 等對襯套的加工修飾或 · 工 之平板型而相對簡化許多。、’:因襯套改為容易加 综合以上所述,本發 整機構之改進,確實且有:疋’璺縮機容積比調 未見於任何刊物且;有之創新構造,其既 Ί上士亦未見有任何類似的產 :有L二二 性應無疑慮。另外,本發明所 j之獨特m及功能料W所可味,所以其 確貫比習用更具有其進步性,而符合我 發明專利U請要紅職,乃心提㈣利申ζ關 以上所述,僅為本發明最佳具體實施例,惟本發 明之構造特徵並不侷限於此’任何熟悉該項技蔽者丄 本發明領域内,可輕易思及之變化或修飾,皆^涵蓋 在以下本案之專利範圍。 / 201102509 【圖式簡單說明】 第1A圖係美國第6,409,490號專利案所揭示習 見壓縮機之滑閥結構剖面示圖。 第1B圖係美國第6,409,490號專利案所揭示習 見壓縮機之襯套的立體示圖。 第2圖係本發明之壓縮機轉子室内未安裝設襯 套如之平面示圖。 第3圖係本發明之公、母轉子嚅合平面示圖。 第4圖係本發明之壓縮機的軸向剖面圖。 第5圖係本發明之壓縮機轉子室内安裝設襯套 後之平面示圖。 第6圖係本發明之襯套的平面圖和縱剖面圖。Improper contact or interference 砗, thousands to produce red ^ can also be improved by the new processing of the bushings 42, u A, or the weight of the 42, 5 # 42θ Μ. This 201102509 and so on is relatively simple to simplify the processing of the bushing or the flat type of the work. , ': Because the bushing has been changed to easy to add to the above, the improvement of the hairdressing mechanism is indeed: 疋' 璺 璺 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积 容积There is no similar production: there is no doubt that there are L and two. In addition, the unique m and functional materials of the present invention are savory, so the authenticity is more progressive than the conventional one, and the invention patent U is required to be a red job, and the heart is mentioned (4) Lishen Shaoguan above The present invention is only the preferred embodiment of the present invention, but the structural features of the present invention are not limited to the details of the present invention, which can be easily changed or modified. The scope of the patent in this case below. / 201102509 [Simplified Schematic Description] Fig. 1A is a cross-sectional view showing the structure of a spool valve of a compressor disclosed in U.S. Patent No. 6,409,490. Figure 1B is a perspective view of a bushing of a compressor as disclosed in U.S. Patent No. 6,409,490. Fig. 2 is a plan view showing the bushing of the compressor rotor of the present invention not installed. Fig. 3 is a plan view showing the male and female rotors of the present invention. Figure 4 is an axial sectional view of the compressor of the present invention. Fig. 5 is a plan view showing the arrangement of bushings in the rotor of the compressor of the present invention. Figure 6 is a plan view and a longitudinal cross-sectional view of the bushing of the present invention.
【主要元件符號說明】 10 :支軸 11、21 :凸字形襯套 13、23 :凸部 25 :止閥塊 30 :轉子室 41 :公轉子 42、52 :襯套 422、522 :穿孔 61 :支軸 20 :滑閥 12、22 :平板 14、24 :穿孔 3 :螺旋式空氣壓縮機 31、32 :孔道 51 :母轉子 421、521 :切邊 6 :止閥塊[Description of main component symbols] 10: Support shafts 11, 21: convex bushings 13, 23: convex portion 25: check valve 30: rotor chamber 41: male rotor 42, 52: bushings 422, 522: perforation 61: Support shaft 20: slide valve 12, 22: plate 14, 24: perforation 3: screw air compressor 31, 32: hole 51: female rotor 421, 521: trim 6: stop block