M318487 八、新型說明: 【新型所屬之技術領域】 特別是關於一種研磨機用之 本創作係與研磨機有關 定位環。 5【先前技術】 按,習用研磨機之定位環具有 於研磨刀具時,該定位環尸能馳曲面田研磨板 .衣/、犯驅動該研磨機之夾頭夾持刀 八乂早-方向進仃加I。若欲改刀具之螺旋切刃的方向, 則必須拆賴研賴’以更麟應於螺旋㈣的定位環。 然而’由於更換零件時的手續_且費時,並不符合經濟 效益;再者,若就研磨機機件而言,長期頻繁地拆裝對於 機件本身料造成磨損’具有影響研磨機的精密性以及使 用壽命的問題。 另外,習用研磨機之定位環除了加工方向的問題外, 15更必須要能夠配合不同_的刀具提供不_行程,例如 鑽頭、導角刀或銑刀。然而,習用的定位環只具有單一環 形曲面,當使用者欲更換不同錢的定位環時,就必須拆 解該研磨機,其同樣會對機件造成磨損,衍生影響研磨機 的精密性以及使用壽命的問題,且耗時費事,使用上相+ 20 不便。 田 綜上所陳,習用研磨機用之定位環具有上述之缺失而 有待改進。 ' 【新型内容】 4 M318487 ^ 丁馬之特色,增進操作便利性。 具有提供不同 目的在於提供—種研磨機用之定位環 此夠以順日请方向或逆時針方向進行加工 加工方向之特色。 班: 本創作所提供一種研磨機用之定位 壤,該研磨機具有一固定庙M318487 VIII. New description: [New technical field of the invention] Especially for a grinding machine, the creative system is related to the grinding machine. 5 [Prior Art] Press, the positioning ring of the conventional grinding machine has the grinding ring, the positioning ring can drive the curved surface grinding plate. The clothing/driver drives the grinding machine to clamp the knife and gossip early-direction Add I. If you want to change the direction of the spiral cutting edge of the tool, you must dismantle the positioning ring that is more versatile than the spiral (four). However, due to the procedure when replacing parts, it is time-consuming and not economical. In addition, if the grinding machine is used, the long-term frequent disassembly and assembly will cause wear on the machine itself, which has the influence on the precision of the grinding machine. And the problem of service life. In addition, in addition to the problem of the machining direction, the positioning ring of the conventional grinding machine must be able to provide a non-stroke, such as a drill, a corner knife or a milling cutter, with different tools. However, the conventional positioning ring only has a single annular curved surface. When the user wants to change the positioning ring of different money, the grinding machine must be disassembled, which also causes wear on the mechanical parts, which affects the precision and use of the grinding machine. The problem of life, and time-consuming and troublesome, the use of the upper phase + 20 is inconvenient. Tian Jishang said that the positioning ring used in the conventional grinding machine has the above-mentioned defects and needs to be improved. ' [New content] 4 M318487 ^ The characteristics of Ding Ma, to enhance the convenience of operation. There is a different purpose to provide a positioning ring for the grinding machine. This is enough to process the machining direction in the direction of the day or counterclockwise. Class: This creation provides a positioning machine for the grinding machine, which has a fixed temple
仏 疋座’ 一夾頭設於該固定座且可沿仏 疋 ’ a collet is set in the mount and can be along
一軸心方向往復移動,一F 基準面與該軸心方向垂直想之 I直該疋位裱包含有:一本體係具 侧以及-第一側,該第一側係與該固定座連接, 該第二側則可受該頂針抵頂;該第二侧具有環形之-第- 段以及-斜面段,該第二引導面之平面段與該基準面之距 I5離係為固定,該第二引導面之斜面段與該基準面之距離係 沿著該圓周方向逐漸增加。 引^面^及帛一引導面,該第一引導面與該基準面之距 離係沿著-圓周方向逐漸增加,該第二引導面具有一平面 本創作透過上述結構,能夠經由該等引導面驅使該研磨 機依不同的行程設定而可以做出多種特定的加工行為。另外, 該圓周方向可定義為順時針方向或逆時針方向,以研磨出 20不同螺旋切刃的方向之刀具。 【實施方式】 為了詳細說明本創作之結構、特徵及功效所在,茲舉 以下三較佳實施例並配合圖式說明如後,其中: 5 M318487 第-圖為本創作第-較佳實施例之立體圖。 第二圖為本創作第-較佳實施例裝設於一研磨機之實 施態樣。 第三圖為本創作第-較佳實施例之本體的頂侧視圖, 5其揭不引導面的分布。 第四圖為本創作第一較佳實施例之第-引導面之位移 行程示意圖。 第五圖為本創作第-較佳實施例之第二引導面之位移 行程示意圖。 ⑴_ ®六圖為本創作第-較佳實施例之第三引導面之位移 行程不意圖。 第七圖為本創作第二較佳實施例之立體圖。 第八圖為本創作第一車父佳實施例之本體的頂侧視圖, 其揭示引導面的分布。Reciprocating in a direction of the axis, an F-reference plane is perpendicular to the direction of the axis, and the I-position includes: a system side and a first side, the first side is connected to the fixing seat, The second side can be abutted by the thimble; the second side has a ring-of-the-segment and a beveled section, and the plane of the second guiding surface and the reference plane are fixed from the reference plane I5. The distance between the inclined surface section of the two guiding surfaces and the reference surface gradually increases along the circumferential direction. And a guiding surface, the distance between the first guiding surface and the reference surface is gradually increased along the circumferential direction, and the second guiding mask has a plane through which the structure can pass through the guiding surface The mill is driven to make a variety of specific processing behaviors depending on the stroke settings. Alternatively, the circumferential direction can be defined as a clockwise or counterclockwise direction to grind out the tool of 20 different helical cutting edges. [Embodiment] For the detailed description of the structure, features and functions of the present invention, the following three preferred embodiments are described with reference to the following, wherein: 5 M318487 The first embodiment is the first preferred embodiment of the present invention. Stereo picture. The second figure is an embodiment in which the first preferred embodiment of the present invention is mounted on a grinder. The third figure is a top side view of the body of the first preferred embodiment of the present invention, which discloses the distribution of the guiding surfaces. The fourth figure is a schematic diagram of the displacement stroke of the first guiding surface of the first preferred embodiment of the creation. Fig. 5 is a schematic view showing the displacement stroke of the second guide surface of the first preferred embodiment of the present invention. (1) The six-picture is the displacement of the third guiding surface of the first preferred embodiment of the present invention. Figure 7 is a perspective view of a second preferred embodiment of the present invention. The eighth figure is a top side view of the body of the first embodiment of the creation of the first car, which reveals the distribution of the guiding faces.
第九圖為本創作第二較佳實施例之本體的頂侧視圖, 其揭不引導面的分布。 首先請參閱第-圖至第六圖,其係為本創作第一較佳 實施例所提供研磨機狀定位環⑽,該研磨機⑴具有一 固定座(2),—夾頭(3)設於_定座(2)且可沿—轴心方向⑷ 往復移動,-頂針(5)設於該_(3),以及—假想之基準面 ⑹與該軸心、方向(4)垂直,蚊位環⑽包含有一本體⑽ 以及-板件⑽。該研磨機(1)之結構係與制者類似,在 此容不贅述。 該本體(2G)係具有-第-側(2〇 i)、—第二侧(2〇2)以及 20 M318487 -螺桿(203)’該第—侧(2〇1)係與該固定座(2)連接,該第二 ,(202)則可f該頂針⑺抵頂;該第二侧(搬)具有環形之一 第-引導面(21)、一第二引導面(22)以及一第三引導面 (23)’以供該頂針(5)抵頂。該第一引導面⑽與該基準面⑹ 5之距離係〜著一圓周方向(25)逐漸增加,於本實施例中該圓 周方向係順日守針方向;該第一引導面(21)與該基準面⑹間 之距離係由Xmm逐漸增加至為(X+1.6)mm,其中X為常 數,如第四圖所示。該第二引導面(22)具有一平面段(221) 以及一斜面段(222),該第二引導面(22)之平面段(221)與該 W基準面(6)之距離係為固定,該第二引導面(22)之斜面段(222) ,該基準面(6)之距離係沿著該圓周方向(25)逐漸增加;該 第二引導面(22)之斜面段(222)與該基準面⑹之距離係由γ mm逐漸增加至為(γ + 4) mm,其中γ為常數;該第二引導 面(222)之平面段(221)及該斜面段(222)投影於該基準面⑹ 15之長度比例為1:1,亦即兩者長度相等,如第五圖所示。該 第二引導面(23)係位於該第一引導面(21)以及該第二引導 面(22)外圍且具有一平面段(231)以及一斜面段(232),該第 二引導面(23)之平面段(231)與該基準面(6)之距離係為固 疋’ a亥苐二引導面(23)之斜面段(232)與該基準面(6)之距離 20係沿著該圓周方向(25)逐漸增加;該第三引導面(23)之斜面 丰又(232)與該基準面⑹之距離係由z mm逐漸增加至為(Z + 5) mm,其中Z為常數,X、γ、z未必相等;該第三引導 面(23)之平面段(231)及該斜面段(232)投影於該基準面⑹之 長度比例為2:1,即平面段(231)之長度為斜面段(232)之二 M318487 倍’如第六圖所示。實際製造時,該圓周方向(25)亦可為逆 時針方向。該螺桿(203)係位於該本體(20)之一側,以供該 本體(20)設於該固定座(2)。 該板件(30)係樞設於該本體(20)底側且具有一穿孔 5 (32) ’該穿孔(32)可供一螺栓(34)進行穿設而將該本體(2〇) 固設於該固定座(2)。 藉由上述結構,當該頂針(5)頂抵於該第一引導面 (21) ’將可驅使該研磨機(1)之夾頭(3)以特定行程帶動一刀 具(圖未示)沿該軸心方向(4)往復移動,如此,該刀具即 ⑴可叉该研磨機之砂輪(圖未示)研磨出特定刀刃形狀,如 鑽頭;該頂針(5)可依需要調整其設於該夾頭(3)上之位置, 當该頂針(5)頂抵於該第二引導面(22),將可驅使該研磨機 ^夾頭(3)以另一特定行程帶動一刀具沿該軸心方向(4)往 復移動,即可研磨出另一特定形狀之刀具,如導角刀;同 15理,當該頂針(5)頂抵於該第三引導面(23),將可驅使該研 磨,(1)之夾頭(3)以相異行程帶動一刀具沿該軸心方向(4) 在復移動,如此可研磨出又一特定形狀之刀具,如銑刀。 如此-來’使用者欲研磨不同刀具時,無需拆換該定位環, 僅需凋整该頂針(5)之位置即可,不僅操作簡便,更能夠避 20免對研磨機機件之磨損。 上产藉此,本貫施例所提供研磨機用之定位環(1〇)能夠經由 该等引導面(21)(22)(23)不同的結構特性,使該研磨機⑴依不同 的1程設定而可以做出特定的加工行為,能夠在不拆解該定 位%(10)的情形下,提供多種不同的行程改變加工結果,具 M318487 【圖式簡單說明】 第一圖為本創作第一較佳實施例之立體圖。 第二圖為本創作第一較佳實施例裝設於一研磨機之實 施態樣。 5 第三圖為本創作第一較佳實施例之本體的頂側視圖, 其揭示引導面的分布。 第四圖為本創作第一較佳實施例之第一引導面之位移 行程示意圖。 第五圖為本創作第一較佳實施例之第二引導面之位移 10 行程示意圖。 第六圖為本創作第一較佳實施例之第三引導面之位移 行程示意圖。 第七圖為本創作第二較佳實施例之立體圖。 第八圖為本創作第二較佳實施例之本體的頂側視圖, 15 其揭示引導面的分布。 第九圖為本創作第三較佳實施例之本體的頂側視圖, 其揭示引導面的分布。The ninth drawing is a top side view of the body of the second preferred embodiment of the present invention, which reveals the distribution of the guiding surfaces. First, please refer to the first to sixth figures, which are the grinding machine-like positioning ring (10) provided in the first preferred embodiment of the present invention. The grinding machine (1) has a fixing base (2), and the chuck (3) is provided. Relocating to the _ seat (2) and reciprocating along the axis direction (4), the thimble (5) is located at the _(3), and the imaginary reference plane (6) is perpendicular to the axis, the direction (4), and the mosquito The bit ring (10) includes a body (10) and a plate member (10). The structure of the grinder (1) is similar to that of the manufacturer, and will not be described here. The body (2G) has a -th side (2〇i), a second side (2〇2), and a 20 M318487-screw (203)' the first side (2〇1) and the fixing seat ( 2) connecting, the second, (202) may f the thimble (7) abuts; the second side (moving) has a ring-shaped guiding surface (21), a second guiding surface (22) and a first The three guiding faces (23)' are for the thimble (5) to abut. The distance between the first guiding surface (10) and the reference surface (6) 5 is gradually increased in a circumferential direction (25). In the embodiment, the circumferential direction is in the same direction; the first guiding surface (21) is The distance between the reference planes (6) is gradually increased from Xmm to (X + 1.6) mm, where X is a constant, as shown in the fourth figure. The second guiding surface (22) has a plane section (221) and a slope section (222), and the distance between the plane section (221) of the second guiding surface (22) and the W reference plane (6) is fixed. a slope portion (222) of the second guiding surface (22), the distance of the reference surface (6) gradually increases along the circumferential direction (25); the inclined surface portion (222) of the second guiding surface (22) The distance from the reference plane (6) is gradually increased from γ mm to (γ + 4) mm, where γ is a constant; the plane section (221) of the second guiding surface (222) and the slope section (222) are projected on The reference surface (6) 15 has a length ratio of 1:1, that is, the lengths of the two are equal, as shown in the fifth figure. The second guiding surface (23) is located at the periphery of the first guiding surface (21) and the second guiding surface (22) and has a plane section (231) and a slope section (232), the second guiding surface (23) 23) The distance between the plane segment (231) and the reference surface (6) is the distance between the slope portion (232) of the solid surface of the guide surface (23) and the reference surface (6). The circumferential direction (25) is gradually increased; the distance between the slope of the third guiding surface (23) and the reference surface (6) is gradually increased from z mm to (Z + 5) mm, where Z is a constant X, γ, z are not necessarily equal; the plane segment (231) of the third guiding surface (23) and the length of the bevel segment (232) projected onto the reference surface (6) are 2:1, that is, the plane segment (231) The length is the M318487 times of the bevel section (232) as shown in the sixth figure. In actual manufacturing, the circumferential direction (25) may also be counterclockwise. The screw (203) is located on one side of the body (20) for the body (20) to be disposed on the fixing seat (2). The plate member (30) is pivotally disposed on the bottom side of the body (20) and has a through hole 5 (32). The through hole (32) can be threaded by a bolt (34) to fix the body (2〇). It is located in the fixed seat (2). With the above structure, when the ejector pin (5) abuts against the first guiding surface (21)', the collet (3) of the grinder (1) can be driven to drive a cutter (not shown) along a specific stroke. The axial direction (4) reciprocates, so that the cutter (1) can grind the grinding wheel (not shown) of the grinder to grind a specific blade shape, such as a drill bit; the thimble (5) can be adjusted as needed The position on the collet (3), when the ejector pin (5) abuts against the second guiding surface (22), will drive the grinder chuck (3) to drive a tool along the axis with another specific stroke The reciprocating movement of the heart direction (4) can grind another tool of a specific shape, such as a corner knife; if the ejector pin (5) abuts against the third guiding surface (23), the Grinding, (1) The collet (3) drives a tool in the direction of the axis (4) in a different stroke, so that another tool of a specific shape, such as a milling cutter, can be ground. In this way, when the user wants to grind different tools, the positioning ring does not need to be replaced, and only the position of the thimble (5) needs to be deflated, which is not only easy to operate, but also avoids abrasion of the grinding machine parts. According to the above, the positioning ring (1〇) for the grinding machine provided by the present embodiment can make the grinding machine (1) different according to the different structural characteristics of the guiding surfaces (21) (22) and (23). The process can be set to make a specific processing behavior, and can provide a variety of different stroke change processing results without disassembling the positioning %(10), with M318487 [Simple illustration] The first picture is the first creation A perspective view of a preferred embodiment. The second figure is an embodiment of the first preferred embodiment of the present invention installed in a grinder. 5 The third drawing is a top side view of the body of the first preferred embodiment of the creation, which reveals the distribution of the guiding surfaces. The fourth figure is a schematic diagram of the displacement stroke of the first guiding surface of the first preferred embodiment of the creation. The fifth figure is a schematic diagram of the displacement 10 stroke of the second guiding surface of the first preferred embodiment of the creation. The sixth figure is a schematic diagram of the displacement stroke of the third guiding surface of the first preferred embodiment of the creation. Figure 7 is a perspective view of a second preferred embodiment of the present invention. The eighth figure is a top side view of the body of the second preferred embodiment of the present invention, 15 which reveals the distribution of the guide faces. The ninth drawing is a top side view of the body of the third preferred embodiment of the present invention, which discloses the distribution of the guiding faces.