TWM491106U - Power shaft revolution plate set and roller teeth cam drive device - Google Patents

Power shaft revolution plate set and roller teeth cam drive device Download PDF

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Publication number
TWM491106U
TWM491106U TW103208049U TW103208049U TWM491106U TW M491106 U TWM491106 U TW M491106U TW 103208049 U TW103208049 U TW 103208049U TW 103208049 U TW103208049 U TW 103208049U TW M491106 U TWM491106 U TW M491106U
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Taiwan
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shaft
roller
output shaft
cam
rolling bearing
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TW103208049U
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Chinese (zh)
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feng-tian Chen
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Jian Xue Qin
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Priority to TW103208049U priority Critical patent/TWM491106U/en
Publication of TWM491106U publication Critical patent/TWM491106U/en

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Description

出力軸迴轉盤組及滾齒凸輪傳動裝置Output shaft rotary disc set and hobbing cam transmission

本新型是有關於一種傳動裝置,特別是指一種滾齒凸輪傳動裝置。The present invention relates to a transmission device, and more particularly to a hobbing cam transmission device.

參閱圖1,為習知應用於CNC(Computer Numerical Control)工具機自動換刀設備(圖未示)的滾齒凸輪傳動裝置。該滾齒凸輪傳動裝置包含一凸輪1及一與該凸輪1相組接的出力軸迴轉盤組2。該凸輪1包括一具有一軸線L1的本體11,及一沿著軸向曲線環繞設置於該本體11外周面的凸肋12。該凸肋12與該本體11相配合界定形成一溝槽13。該出力軸迴轉盤組2包括一具有一軸線L2且軸向異於該凸輪1的軸向的出力軸迴轉盤21、多數間隔設置於該出力軸迴轉盤21外周面的軸孔22、多數分別軸設於該等軸孔22的軸桿23,及多數分別樞設於該等軸桿23且外露該出力軸迴轉盤21外並可容設於該凸輪1的溝槽13的滾動軸承24。其中,該出力軸迴轉盤組2與該凸輪1藉由部分容設於該溝槽13內的滾動軸承24而組接一起。當該凸輪1受驅動旋轉時,該凸輪1的凸肋12沿著軸向移動,使得位於該溝槽13內的滾動軸承24外周面可滾動地抵靠於該凸肋12內壁面(見圖2),進而受到該凸肋12推移, 以帶動該出力軸迴轉盤21旋轉。在上述過程中,該等滾動軸承24隨著該出力軸迴轉盤21旋轉,依序循環地進入該凸輪1的溝槽13,而受該凸輪1的凸肋12旋轉推移,藉此該凸輪1可持續驅動該出力軸迴轉盤組2旋轉直到該凸輪1停止旋轉為止。Referring to Fig. 1, there is a hobbing cam transmission device which is conventionally applied to a CNC (Computer Numerical Control) machine tool automatic tool changer (not shown). The hobbing cam transmission includes a cam 1 and a power output shaft rotary disk set 2 that is coupled to the cam 1. The cam 1 includes a body 11 having an axis L1, and a rib 12 disposed along an axial curve around an outer peripheral surface of the body 11. The rib 12 cooperates with the body 11 to define a groove 13 . The output shaft rotating disk unit 2 includes an output shaft rotating disk 21 having an axis L2 and axially different from the axial direction of the cam 1, and a plurality of shaft holes 22 spaced apart from the outer peripheral surface of the output shaft rotating plate 21, and a plurality of respectively The shaft 23 is disposed on the shaft 23 of the shaft hole 22, and a plurality of rolling bearings 24 respectively pivotally disposed on the shafts 23 and exposing the output shaft rotating disc 21 and accommodating the grooves 13 of the cam 1. The output shaft rotating disk group 2 and the cam 1 are assembled by a rolling bearing 24 partially accommodated in the groove 13. When the cam 1 is driven to rotate, the rib 12 of the cam 1 moves in the axial direction, so that the outer circumferential surface of the rolling bearing 24 located in the groove 13 can rollably abut against the inner wall surface of the rib 12 (see FIG. 2). ), and then moved by the rib 12, The rotating shaft 21 is rotated by the output shaft. In the above process, the rolling bearing 24 rotates with the output shaft to rotate the disk 21, and sequentially enters the groove 13 of the cam 1 in sequence, and is rotated by the rib 12 of the cam 1, whereby the cam 1 can be rotated. The output shaft rotating disk group 2 is continuously driven to rotate until the cam 1 stops rotating.

參閱圖1及圖2,由於上述滾齒凸輪傳動裝置經 過長時間的運轉使用,使得兩相抵靠接觸該凸肋12內壁面與該等滾動軸承24外周面產生磨耗形成一帶狀磨耗區121。另外,當機台有撞車或遭遇其他大力撞擊事故時,也會使得該等滾動軸承24撞擊該凸肋12內壁面而形成一撞擊凹陷區122,同時該等滾動軸承24也會連動其樞設的軸桿23推擠該等軸孔22,使得該等軸桿23及該等軸孔22分別產生彎曲及擴大等形變,一旦有上述構件的形變,整個滾齒凸輪傳動裝置的傳動精度就會產生嚴重的誤差,尤其對於需高精度傳動的CNC機台影響甚大,造成無法加工出與所輸入模型相符的成品,使用者只有將該凸輪1、該出力軸迴轉盤21及該等滾動軸承24全部汰換成新的,才能維持機台的運作,相當耗費時間及成本,因此要如何降低機台的滾齒凸輪傳動裝置的汰換成本,一直是業者想要解決的問題。Referring to Figures 1 and 2, due to the above-described hobbing cam transmission The belt is worn for a long time, so that the two phases abut against the inner wall surface of the rib 12 and the outer peripheral surface of the rolling bearing 24 to form a belt-shaped wear region 121. In addition, when the machine has a collision or encounters other strong impact accidents, the rolling bearing 24 also impacts the inner wall surface of the rib 12 to form an impact recessed area 122, and the rolling bearings 24 also interlock with the pivoted shaft. The rods 23 push the shaft holes 22 such that the shafts 23 and the shaft holes 22 are deformed by bending and expansion, respectively. Once the deformation of the above components occurs, the transmission precision of the entire hobbing cam transmission is severe. The error is especially affected by the CNC machine that needs high-precision transmission, which makes it impossible to process the finished product that matches the input model. The user only replaces the cam 1, the output shaft rotary disk 21 and the rolling bearings 24 In order to maintain the operation of the machine, it takes a lot of time and cost. Therefore, how to reduce the replacement cost of the hobbing cam transmission of the machine has always been a problem that the industry wants to solve.

因此,本新型之第一目的,即在提供一種出力 軸迴轉盤組。Therefore, the first object of the present invention is to provide an output Axis rotary disc set.

於是本新型出力軸迴轉盤組包含一出力軸迴轉 盤及一第一滾子組。Therefore, the novel output shaft rotary disk set includes a power output shaft rotation A disk and a first roller set.

該出力軸迴轉盤包括一本體及多數間隔形成於該本體外周面的軸孔。The output shaft rotary disk comprises a body and a plurality of shaft holes spaced apart from the outer peripheral surface of the body.

該第一滾子組包括多數分別裝設於該等軸孔的第一滾子。各第一滾子具有一軸設於軸孔的軸桿,及一樞設於該軸桿且外露該出力軸迴轉盤外的滾動軸承。各第一滾子的滾動軸承外周面界定出一位於中央處的接觸部,及二分別位於該接觸部的兩相反側且直徑較小於該接觸部的直徑的非接觸部。The first roller set includes a plurality of first rollers respectively mounted on the equiaxed holes. Each of the first rollers has a shaft disposed on the shaft hole, and a rolling bearing pivoted on the shaft and exposing the outer shaft of the output shaft. The outer peripheral surface of the rolling bearing of each of the first rollers defines a centrally located contact portion, and two non-contact portions respectively located on opposite sides of the contact portion and having a diameter smaller than the diameter of the contact portion.

另外,本新型之第二目的,即在提供一種只需替換部分零件即可延長使用壽命以降低汰換成本的滾齒凸輪傳動裝置。In addition, the second object of the present invention is to provide a hobbing cam gear that can extend the service life and reduce the cost of replacement by replacing only a part of the parts.

於是本新型滾齒凸輪傳動裝置,包含一凸輪及一如前述的出力軸迴轉盤組。Therefore, the novel hobbing cam transmission device comprises a cam and a power output shaft rotary disk set as described above.

該凸輪包括一本體,及一沿著軸向曲線環繞設置於該本體外周面的凸肋。該凸肋與該本體相配合界定形成一溝槽。The cam includes a body and a rib disposed along the axial curve around the outer peripheral surface of the body. The ribs cooperate with the body to define a groove.

該出力軸迴轉盤組與該凸輪相組接,該出力軸迴轉盤與該凸輪兩者的軸向相異,且該等第一滾子其中至少一者的滾動軸承是容設於該凸輪的溝槽內。The output shaft rotating disk group is coupled to the cam, the output shaft rotating disk and the cam are axially different, and at least one of the first rollers has a groove bearing disposed in the groove of the cam Inside the slot.

其中,當該凸輪旋轉時,該凸輪的凸肋沿著軸向移動,使得位於該溝槽內的滾動軸承的接觸部可滾動地抵靠於該凸肋內壁面,進而受到該凸肋推移,以帶動該出力軸迴轉盤旋轉,在此過程中,該等滾動軸承隨著該出力 軸迴轉盤旋轉依序循環地進入該凸輪的溝槽而受該凸輪的凸肋旋轉推移,藉此該凸輪可持續驅動該出力軸迴轉盤組旋轉直到該凸輪停止旋轉為止。Wherein, when the cam rotates, the rib of the cam moves along the axial direction, so that the contact portion of the rolling bearing located in the groove can roll against the inner wall surface of the rib and is further displaced by the rib to Driving the output shaft to rotate the disc, in the process, the rolling bearings follow the output The rotation of the shaft rotary disk sequentially enters the groove of the cam and is rotated by the rib of the cam, whereby the cam continuously drives the output shaft to rotate the disk until the cam stops rotating.

本新型的功效在於:藉由設置於該出力軸迴轉 盤外周的第一滾子組的滾動軸承外周面的不同凹凸變化的輪廓設計,在該凸輪的凸肋內壁面與該第一滾子的滾動軸承的接觸部滾動接觸,亦或是產生撞擊造成磨損凹陷時,能有效限縮所該凸肋內壁面磨損凹陷的區域,然而只需將該等第一滾子卸除,以傳統具有圓柱形外周面的滾動軸承的滾子進行替換,其中藉由傳統滾子外周面是滾動抵靠該凸肋內壁面未受磨耗凹陷的區域,即可在不影響傳動精度下,維持該滾齒凸輪傳動裝置的正常運作,達到該凸輪及該出力軸迴轉盤可第二次被使用之功效。因此,以僅進行替換製造成本較低的滾子,來延長製造成本較高的出力軸迴轉盤及凸輪的使用壽命,從而有效降低上述滾齒凸輪傳動裝置的汰換成本。The effect of the novel is: by rotating on the output shaft The contour design of the different concave-convex changes of the outer peripheral surface of the rolling bearing of the first roller group of the outer circumference of the disk is in rolling contact with the contact portion of the inner wall surface of the rib of the cam and the rolling bearing of the first roller, or the impact is caused by the wear depression In time, the area of the inner wall surface of the rib can be effectively limited, but only the first roller is removed, and the roller of the conventional rolling bearing having a cylindrical outer peripheral surface is replaced, wherein the conventional rolling is performed. The outer peripheral surface of the sub-subject is an area that is rolled against the inner surface of the rib without the wear recess, so that the normal operation of the hobbing cam transmission can be maintained without affecting the transmission precision, and the cam and the output shaft can be rotated. The effect of being used twice. Therefore, the service life of the output shaft rotating disc and the cam having a high manufacturing cost can be prolonged by merely replacing the roller having a lower manufacturing cost, thereby effectively reducing the replacement cost of the hobbing cam gear.

4‧‧‧凸輪4‧‧‧ cam

41‧‧‧本體41‧‧‧Ontology

42‧‧‧凸肋42‧‧‧ ribs

421‧‧‧帶狀磨耗區421‧‧‧Band wear zone

422‧‧‧撞擊凹陷區422‧‧‧ impact depression

423‧‧‧未撞擊磨耗區423‧‧‧No impact wear zone

43‧‧‧溝槽43‧‧‧ trench

5‧‧‧出力軸迴轉盤組5‧‧‧Output shaft rotary disc set

50‧‧‧出力軸迴轉盤50‧‧‧Power shaft rotary disc

500‧‧‧本體500‧‧‧ ontology

501‧‧‧軸孔501‧‧‧Axis hole

502‧‧‧預留軸孔502‧‧‧ Reserved shaft hole

51‧‧‧第一滾子組51‧‧‧First Roller Group

511‧‧‧第一滾子511‧‧‧First Roller

512‧‧‧軸桿512‧‧‧ shaft

513‧‧‧滾動軸承513‧‧‧ rolling bearings

514‧‧‧接觸部514‧‧‧Contacts

515‧‧‧非接觸部515‧‧‧ Non-contact department

52‧‧‧第二滾子組52‧‧‧Second roller group

521‧‧‧第二滾子521‧‧‧Second roller

522‧‧‧軸桿522‧‧‧ shaft

523‧‧‧滾動軸承523‧‧‧ rolling bearings

524‧‧‧接觸部524‧‧‧Contacts

525‧‧‧非接觸部525‧‧‧ Non-contact department

L4‧‧‧軸線L4‧‧‧ axis

L5‧‧‧軸線L5‧‧‧ axis

本新型之其他的特徵及功效,將於參照圖式的較佳實施例詳細說明中清楚地呈現,其中:圖1是一立體圖,說明習知應用於一CNC工具機自動換刀設備的滾齒凸輪傳動裝置的各元件的連接關係;圖2是一立體圖,說明習知滾齒凸輪傳動裝置的一滾動軸承於一凸肋內壁面磨耗及撞擊所形成一帶狀磨耗區及一撞擊凹陷區; 圖3是一立體圖,說明本新型滾齒凸輪傳動裝置的一第一較佳實施例的各元件的連接關係,其中,僅畫出多數第二滾子中的兩個以作示意;圖4是一立體圖,說明該第一較佳實施例的一第一滾子滾動磨耗及撞擊一凸肋內壁面所形成一帶狀磨耗區及一撞擊凹陷區,圖5是一立體圖,說明該第一較佳實施例的一第二滾子外周面於滾動抵觸於該凸肋受磨耗撞擊後的內壁面;圖6是一立體圖,說明本第一較佳實施例的一為另一結構態樣的第二滾子外周面滾動抵觸於該凸肋受磨耗撞擊後的內壁面;圖7是一立體圖,說明該第一較佳實施例的一為另一結構態樣的第一滾子滾動磨耗及撞擊該凸肋內壁面所形成一帶狀磨耗區及一撞擊凹陷區圖8是一立體圖,說明該第一較佳實施例的一為另一結構態樣的第二滾子外周面滾動抵觸於該凸肋受磨耗撞擊後的內壁面;圖9是一立體圖,說明該第一較佳實施例的另一實施態樣;圖10是一立體圖,說明本新型滾齒凸輪傳動裝置的一第二較佳實施例的各元件的連接關係,其中,僅畫出多數第二滾子中的兩個以作示意;圖11是一立體圖,說明該第二較佳實施例的另一實施態樣; 圖12是一立體圖,說明本新型滾齒凸輪傳動裝置的一第三較佳實施例的各元件的連接關係,其中,僅畫出多數第二滾子中的兩個以作示意;及圖13是一立體圖,說明該第三較佳實施例的另一實施態樣。Other features and effects of the present invention will be apparent from the following detailed description of the preferred embodiments of the drawings. FIG. 1 is a perspective view illustrating the hobbing of a conventional tool changer for a CNC machine tool. FIG. 2 is a perspective view showing a belt-shaped wear area and an impact recessed area formed by a rolling bearing of a conventional hobbing cam transmission device in the inner wall surface of a rib; Figure 3 is a perspective view showing the connection relationship of the components of a first preferred embodiment of the hobbing cam gear of the present invention, wherein only two of the plurality of second rollers are shown for illustration; A perspective view of a first roller rolling wear of the first preferred embodiment and a belt-shaped wear zone and an impact recessed area formed by the inner wall surface of the rib, FIG. 5 is a perspective view illustrating the first comparison a second roller outer peripheral surface of the preferred embodiment is in contact with the inner wall surface of the rib after being worn by the rib; FIG. 6 is a perspective view showing the first preferred embodiment of the first preferred embodiment The outer surface of the two rollers is rolled against the inner wall surface of the rib after being worn by impact; FIG. 7 is a perspective view showing the first roller rolling wear and impact of the first preferred embodiment A strip-shaped wear region and an impact recessed region are formed in the inner wall surface of the rib. FIG. 8 is a perspective view showing that the outer peripheral surface of the second roller of the first preferred embodiment is another structure. The rib is worn by the inner wall surface after impact; Figure 9 is a perspective view Another embodiment of the first preferred embodiment is illustrated; FIG. 10 is a perspective view showing the connection relationship of the components of a second preferred embodiment of the novel hobbing cam transmission device, wherein only the drawing is shown. Two of the plurality of second rollers are illustrated; FIG. 11 is a perspective view showing another embodiment of the second preferred embodiment; Figure 12 is a perspective view showing the connection relationship of the components of a third preferred embodiment of the novel hobbing cam gear, wherein only two of the plurality of second rollers are shown for illustration; and Figure 13 It is a perspective view showing another embodiment of the third preferred embodiment.

在本新型被詳細描述之前,應當注意在以下的說明內容中,類似的元件是以相同的編號來表示。Before the present invention is described in detail, it should be noted that in the following description, similar elements are denoted by the same reference numerals.

參閱圖3及圖4,本新型滾齒凸輪傳動裝置的一第一較佳實施例,適用於一CNC工具機自動換刀設備(圖未示),該滾齒凸輪傳動裝置包含一凸輪4,及一出力軸迴轉盤組5。Referring to FIG. 3 and FIG. 4, a first preferred embodiment of the novel hobbing cam transmission device is applicable to a CNC tool machine automatic tool change device (not shown), and the hobbing cam transmission device includes a cam 4. And a power output shaft rotating disk set 5.

該凸輪4包括一具有一軸線L4的本體41,及一沿著軸向曲線環繞設置於該本體41外周面的凸肋42。該凸肋42與該本體41相配合界定形成一溝槽43。The cam 4 includes a body 41 having an axis L4, and a rib 42 disposed around the outer peripheral surface of the body 41 along an axial curve. The rib 42 cooperates with the body 41 to define a groove 43.

該出力軸迴轉盤組5與該凸輪4相組接,且包括一具有一軸線L5且軸向異於該凸輪4的軸向的出力軸迴轉盤50,及可交替設置於該出力軸迴轉盤50外周的一第一滾子組51及一第二滾子組52。在本實施例中,該第一滾子組51是預先設置於該出力軸迴轉盤50的外周,然而該第二滾子組52是作為該第一滾子組51的替換品。The output shaft rotating disc set 5 is assembled with the cam 4 and includes an output shaft rotating disc 50 having an axis L5 and axially different from the axial direction of the cam 4, and is alternately disposed on the output shaft rotating disc A first roller group 51 and a second roller group 52 of 50 outer circumferences. In the present embodiment, the first roller set 51 is previously disposed on the outer circumference of the output shaft rotary disk 50, however, the second roller set 52 is a substitute for the first roller set 51.

該出力軸迴轉盤50具有一本體500,及多數間隔形成於該本體500外周面的軸孔501。該第一滾子組51具有多數第一滾子511,該第二滾子組52具有多數第二滾 子521。各第一、第二滾子511、521分別具有一可軸設於該等軸孔501的軸桿512、522,及一分別樞設於該軸桿512、522且外露該出力軸迴轉盤50外並可容設於該溝槽43的滾動軸承513、523。在本實施例中,該等第一、第二滾子511、521分別為一滾針軸承及一滾柱軸承其中一者。各第一滾子511的滾動軸承513外周面界定出一位於中央處的接觸部514,及一位於該接觸部514的兩相反側且直徑較小於該接觸部514的直徑的非接觸部515,各第二滾子521的滾動軸承523外周面圍繞呈圓柱形。The output shaft rotary disk 50 has a body 500 and a plurality of shaft holes 501 formed at intervals on the outer circumferential surface of the body 500. The first roller group 51 has a plurality of first rollers 511, and the second roller group 52 has a plurality of second rollers Sub521. Each of the first and second rollers 511 and 521 respectively has a shaft 512, 522 axially disposed on the shaft hole 501, and a pivoting shaft 512, 522 respectively and the power shaft rotating disc 50 is exposed. The rolling bearings 513, 523 of the groove 43 can be accommodated. In this embodiment, the first and second rollers 511 and 521 are respectively one of a needle bearing and a roller bearing. The outer circumferential surface of the rolling bearing 513 of each of the first rollers 511 defines a centrally located contact portion 514, and a non-contact portion 515 located on opposite sides of the contact portion 514 and having a diameter smaller than the diameter of the contact portion 514, The outer peripheral surface of the rolling bearing 523 of each of the second rollers 521 is surrounded by a cylindrical shape.

其中,該出力軸迴轉盤組5與該凸輪4藉由部分容設於該溝槽43內的滾動軸承513、523而組接一起。當該凸輪4旋轉時,該凸輪4的凸肋42沿著軸向移動,使得位於該溝槽43內的第一滾子511的滾動軸承513的接觸部514,或第二滾子521的滾動軸承523外周面可滾動地抵靠於該凸肋42內壁面,進而受到該凸肋42推移,以帶動該出力軸迴轉盤50旋轉,在此過程中,該等滾動軸承513、523隨著該出力軸迴轉盤50旋轉依序循環地進入該凸輪4的溝槽43而受該凸輪4的凸肋42旋轉推移,藉此該凸輪4可持續驅動該出力軸迴轉盤組5旋轉直到該凸輪4停止旋轉為止。The output shaft rotating disk group 5 and the cam 4 are assembled by a rolling bearing 513, 523 partially accommodated in the groove 43. When the cam 4 rotates, the rib 42 of the cam 4 moves in the axial direction, so that the contact portion 514 of the rolling bearing 513 of the first roller 511 located in the groove 43 or the rolling bearing 523 of the second roller 521 The outer peripheral surface is slidably abutted against the inner wall surface of the rib 42 and is further displaced by the rib 42 to drive the output shaft to rotate the disk 50. In the process, the rolling bearings 513 and 523 rotate with the output shaft. The disk 50 is sequentially rotated into the groove 43 of the cam 4 to be rotated by the rib 42 of the cam 4, whereby the cam 4 can continuously drive the output shaft to rotate the disk group 5 until the cam 4 stops rotating. .

配合參閱圖4,在該滾齒凸輪傳動裝置使用一段時間,而預先設置於該出力軸迴轉盤50上的該等第一滾子511的滾動軸承513的接觸部514將該凸肋42內壁面磨耗形成一帶狀磨耗區421時,亦或是當機台有撞車或遭遇其 他大力撞擊事故,使得該等滾動軸承513撞擊該凸肋42內壁面而形成一對應該滾動軸承513的接觸部的撞擊凹陷區422時,即可進行將該第一滾子組51卸除於該出力軸迴轉盤50,並以該第二滾子組52進行置換。再配合參閱圖5,所替換設置於該出力軸迴轉盤50外周的該等第二滾子521與該凸輪4的凸肋42進行驅動旋轉時,上述的該等第一滾子511對於該凸肋42內壁面磨耗形成的帶狀凹面區421或撞擊所形成撞擊凹陷區422是在該等第二滾子521外周面滾動抵靠於該凸肋42內壁面的區域內,因此該等第二滾子521外周面是滾動抵靠於該凸肋42內壁面的二分別位於該帶狀凹面區421或該撞擊凹陷區422的兩相反側的未撞擊磨耗區423。Referring to FIG. 4, the hobbing cam gear is used for a period of time, and the contact portion 514 of the rolling bearing 513 of the first roller 511 previously disposed on the output shaft rotating disk 50 wears the inner wall surface of the rib 42 When a belt-shaped wear zone 421 is formed, or when the machine has a collision or encounters it When the rolling bearing 513 hits the inner wall surface of the rib 42 to form a pair of impact recessed portions 422 corresponding to the contact portion of the rolling bearing 513, the first roller group 51 can be removed from the output. The shaft rotates the disk 50 and is replaced by the second roller set 52. Referring to FIG. 5, when the second roller 521 disposed on the outer circumference of the output shaft rotary disk 50 and the rib 42 of the cam 4 are driven to rotate, the first roller 511 is convex. The strip-shaped concave area 421 formed by the inner wall surface of the rib 42 or the impact recessed area 422 formed by the impact is formed in the area where the outer peripheral surface of the second roller 521 rolls against the inner wall surface of the rib 42, and thus the second The outer peripheral surface of the roller 521 is a non-impact wear area 423 which is rolled against the inner wall surface of the rib 42 and is located on opposite sides of the strip-shaped concave area 421 or the impact recessed area 422, respectively.

由上述說明可知,藉由該等第一滾子511外周 面的接觸部514及非接觸部515的設計,將該等第一滾子511與該凸肋42內壁面磨耗的區域範圍限縮,再透過所替換上的該等第二滾子521外周面滾動接觸於該凸肋42內壁面的未撞擊磨耗區423,使得該滾齒凸輪傳動裝置在傳動精度可不受影響下繼續運作,達成該凸輪4可第二次被使用以延長使用壽命的功效。As can be seen from the above description, the outer circumference of the first roller 511 The contact portion 514 and the non-contact portion 515 of the surface are designed to limit the extent of the first roller 511 and the inner wall surface of the rib 42 to be worn, and then pass through the outer peripheral surface of the second roller 521 to be replaced. The non-impact wear zone 423 that is in rolling contact with the inner wall surface of the rib 42 allows the hobbing cam gear to continue to operate under the influence of the transmission accuracy, achieving the effect that the cam 4 can be used for a second time to extend the service life.

值得一提的是,上述該等第二滾子521的滾動 軸承523的外周輪廓不以上述為限,還可以為下述態樣:參閱圖6,各第二滾子521的滾動軸承523的外周面界定形成一位於中央處的非接觸部525,及一位於該非接觸部525的兩相反側且直徑較小於該非接觸部525的直徑的接觸部 524。藉由該等第二滾子521的滾動軸承523的接觸部524及非接觸部525的相對位置是與該等第一滾子511的滾動軸承513的接觸部514及非接觸部515呈相反對稱設計。 因此,所替換設置於該出力軸迴轉盤50外周的該等第二滾子521與該凸輪4的凸肋42進行驅動旋轉時,該等第二滾子521的該等接觸部524是分別滾動抵靠於該凸肋42內壁面的該等未撞擊磨耗區423,使得該滾齒凸輪傳動裝置的傳動精度不受該帶狀磨耗區421或該撞擊凹陷區422影響,達成該凸輪4可第二次被使用以延長使用壽命的功效。It is worth mentioning that the rolling of the second roller 521 mentioned above The outer peripheral contour of the bearing 523 is not limited to the above, and may be the following: Referring to FIG. 6, the outer peripheral surface of the rolling bearing 523 of each of the second rollers 521 is defined to form a non-contact portion 525 at the center, and one is located at Contact portions on opposite sides of the non-contact portion 525 and having a diameter smaller than the diameter of the non-contact portion 525 524. The relative positions of the contact portion 524 and the non-contact portion 525 of the rolling bearing 523 of the second roller 521 are opposite to the contact portion 514 and the non-contact portion 515 of the rolling bearing 513 of the first roller 511. Therefore, when the second roller 521 disposed on the outer circumference of the output shaft rotary disk 50 and the rib 42 of the cam 4 are driven to rotate, the contact portions 524 of the second roller 521 are respectively rolled. The non-impact wear zone 423 abutting against the inner wall surface of the rib 42 is such that the transmission accuracy of the hobbing cam gear is not affected by the belt wear zone 421 or the impact recess zone 422, and the cam 4 can be achieved. Used twice to extend the lifespan.

另外,各第一、第二滾子511、521的滾動軸承 513、523的外周輪廓不以上述為限,還可以為下述態樣:參閱圖7,各第一滾子511的外周面界定形成一鄰近該出力軸迴轉盤50的非接觸部515,及一遠離該出力軸迴轉盤50且直徑較大於該非接觸部515的直徑的接觸部514。參閱圖8,各第二滾子521的滾動軸承523的外周面界定形成一鄰近該出力軸迴轉盤50的接觸部514及一遠離該出力軸迴轉盤50且直徑較小於該接觸部514的直徑的非接觸部515。 藉由該等第二滾子521的滾動軸承523的接觸部524及非接觸部525的相對位置是與該等第一滾子511的滾動軸承513的接觸部514及非接觸部515呈相反對稱設計。因此,所替換設置於該出力軸迴轉盤50外周的該等第二滾子521與該凸輪4的凸肋42進行驅動旋轉時,該等第二滾子521的接觸部524是滾動抵靠於該凸肋42內壁面的未撞擊磨耗區423,使得該滾齒凸輪傳動裝置的傳動精度不受該帶狀磨 耗區421或該撞擊凹陷區422影響,達成該凸輪4可第二次被使用以延長使用壽命的功效。In addition, the rolling bearings of the first and second rollers 511 and 521 The outer peripheral contour of the 513, 523 is not limited to the above, and may also be the following: Referring to FIG. 7, the outer peripheral surface of each of the first rollers 511 defines a non-contact portion 515 adjacent to the output shaft rotary disk 50, and A contact portion 514 that is away from the output shaft rotating disk 50 and has a diameter larger than the diameter of the non-contact portion 515. Referring to FIG. 8, the outer peripheral surface of the rolling bearing 523 of each of the second rollers 521 defines a contact portion 514 adjacent to the output shaft rotary disk 50 and a diameter away from the output shaft rotary disk 50 and having a smaller diameter than the contact portion 514. Non-contact portion 515. The relative positions of the contact portion 524 and the non-contact portion 525 of the rolling bearing 523 of the second roller 521 are opposite to the contact portion 514 and the non-contact portion 515 of the rolling bearing 513 of the first roller 511. Therefore, when the second roller 521 disposed on the outer circumference of the output shaft rotating disk 50 is driven to rotate with the rib 42 of the cam 4, the contact portion 524 of the second roller 521 is rolled against The inner wall surface of the rib 42 does not hit the wear area 423, so that the transmission precision of the hobbing cam transmission is not affected by the belt grinding The consumption zone 421 or the impact depression zone 422 affects the effect that the cam 4 can be used a second time to extend the service life.

更值得一提的是,當機台有撞車或遭遇其他大 力撞擊事故且撞擊力道較為嚴重時,除了使得該等第一滾子511的滾動軸承513撞擊該凸肋42內壁面而形成撞擊凹陷區422外,同時該等滾動軸承513也會連動其樞設的軸桿512推擠該等軸孔501,使得該等軸孔501產生擴大變形,而無法供該等第一滾子511的軸桿512軸設定位,且也無法繼續供替換上的該等第二滾子521的軸桿522軸設定位。It is worth mentioning that when the machine has a collision or encounters other big When the impact force is serious and the impact force is serious, the rolling bearing 513 of the first roller 511 is struck against the inner wall surface of the rib 42 to form the impact recessed area 422, and the rolling bearing 513 also interlocks the pivoted shaft. The rod 512 pushes the shaft holes 501 such that the shaft holes 501 are enlarged and deformed, and the shafts 512 of the first rollers 511 cannot be axially set, and the second ones cannot be replaced. The shaft 522 of the roller 521 is set to the axis.

為了解決上述問題,參閱圖9,該出力軸迴轉盤 組5的出力軸迴轉盤50還可進行加工而具有多數形成於外周面且分別位於每兩相鄰軸孔501間的預留軸孔502。該等預留軸孔502分別可供該等第一、第二滾子511、521的軸桿522軸設。如此一來,將後續替換上的該等第二滾子521分別對應設置於該等預留軸孔502上,使得第二次使用的該滾齒凸輪傳動裝置的傳動精度不受該軸孔501變形所影響。In order to solve the above problem, referring to FIG. 9, the output shaft rotary disk The output shaft rotary disk 50 of the group 5 can also be machined to have a plurality of reserved shaft holes 502 formed in the outer peripheral surface and located between each two adjacent axial holes 501, respectively. The reserved shaft holes 502 are respectively axially slidable by the shafts 522 of the first and second rollers 511 and 521. In this way, the second rollers 521 of the subsequent replacement are respectively disposed on the reserved shaft holes 502, so that the transmission precision of the hobbing cam transmission used for the second time is not affected by the shaft hole 501. The effect of deformation.

經由上述說明可知,本新型滾齒凸輪傳動裝置 的第一較佳實施例,藉由可交替設置於該出力軸迴轉盤50外周的第一、第二滾子組51、52的滾動軸承513、523外周面的不同凹凸變化或呈相反對稱的輪廓設計,在該凸輪4的凸肋42內壁面與該等第一滾子51的滾動軸承513滾動接觸,亦或是產生撞擊造成磨損凹陷時,不用將整組滾齒 凸輪傳動裝置卸除替換,只需將該等第一滾子511卸除分別以該等第二滾子521進行替換,即可在不影響傳動精度下,維持該滾齒凸輪傳動裝置的正常運作。因此,以僅進行製造成本較低的該等第一、第二滾子511、521的替換,來延長製造成本較高的出力軸迴轉盤50及凸輪4的使用壽命,從而有效降低該滾齒凸輪傳動裝置的汰換成本。更佳地,本新型再配合形成該出力軸迴轉盤50上的該等預留軸孔502,更能輔助達到上述之功效。According to the above description, the novel hobbing cam transmission device The first preferred embodiment has different concave-convex variations or oppositely symmetrical contours of the outer circumferential surfaces of the rolling bearings 513, 523 of the first and second roller sets 51, 52 which are alternately disposed on the outer circumference of the output shaft rotary disk 50. It is designed that when the inner wall surface of the rib 42 of the cam 4 is in rolling contact with the rolling bearing 513 of the first roller 51, or when an impact is caused to cause a wear depression, the entire set of hobbing is not required. The cam gear is removed and replaced, and the first roller 511 is removed and replaced by the second roller 521, respectively, so that the normal operation of the hobbing cam gear can be maintained without affecting the transmission accuracy. . Therefore, the service life of the output shaft rotary disk 50 and the cam 4 having a high manufacturing cost is prolonged by replacing only the first and second rollers 511 and 521 having a low manufacturing cost, thereby effectively reducing the hobbing. The cost of replacing the cam gear. More preferably, the present invention cooperates with the formation of the reserved shaft holes 502 on the output shaft rotary disk 50 to further assist the above-mentioned effects.

參閱圖10,本新型滾齒凸輪傳動裝置的一第二 較佳實施例,適用於一CNC分度盤(圖未示),該第二較佳實施例的組件大致上相同於該第一較佳實施例,分別具有一凸輪1及一出力軸迴轉盤組2,差異處僅在於兩者的該凸輪1及該出力軸迴轉盤組2的組件形狀大小有所不同,以分別能應用於不同的裝置內,從而達到相同的旋轉傳動之功效。Referring to Figure 10, a second of the novel hobbing cam transmission The preferred embodiment is applicable to a CNC indexing plate (not shown). The assembly of the second preferred embodiment is substantially identical to the first preferred embodiment, and has a cam 1 and a power shaft rotating disk respectively. In group 2, the difference lies only in the difference in the shape of the components of the cam 1 and the output shaft rotary disk group 2, so as to be applicable to different devices, thereby achieving the same effect of the rotary transmission.

參閱圖11,更佳地,該出力軸迴轉盤組5的出 力軸迴轉盤50還可進行加工而具有多數形成於外周面且分別位於每兩相鄰軸孔501間的預留軸孔502。藉此,將後續替換上的該等第二滾子521分別對應設置於該等預留軸孔502上,達成出力軸迴轉盤50可第二次被使用以延長使用壽命的功效。Referring to FIG. 11, more preferably, the output shaft is rotated out of the disk group 5. The force shaft rotary disk 50 can also be machined to have a plurality of reserved shaft holes 502 formed in the outer peripheral surface and located between each two adjacent shaft holes 501, respectively. Thereby, the second rollers 521 on the subsequent replacement are respectively disposed on the reserved shaft holes 502, and the power shaft rotation disk 50 can be used for a second time to extend the service life.

經由上述說明可知,該第二較佳實施例也具有 與該第一較佳實施例相同的功效。As can be seen from the above description, the second preferred embodiment also has The same effects as the first preferred embodiment.

參閱圖12,本新型滾齒凸輪傳動裝置的一第三 較佳實施例,適用於一CNC自動送料分度盤(圖未示),該第三較佳實施例的組件大致上相同於該第一較佳實施例,分別具有一凸輪1及一出力軸迴轉盤組2,差異處僅在於兩者的該凸輪1及該出力軸迴轉盤組2的組件形狀大小有所不同,以分別能應用於不同的裝置內,從而達到相同的旋轉傳動之功效。Referring to Figure 12, a third of the novel hobbing cam transmission The preferred embodiment is applicable to a CNC automatic feeding indexing plate (not shown). The assembly of the third preferred embodiment is substantially the same as the first preferred embodiment, and has a cam 1 and an output shaft respectively. Returning to the turntable group 2, the difference lies only in the difference in the shape of the components of the cam 1 and the output shaft rotary disk group 2, so as to be applicable to different devices, thereby achieving the same effect of the rotary transmission.

較佳地,參閱圖13,本實施例的出力軸迴轉盤 組5還包括一具有多數間隔形成於外周面的預留軸孔502的出力軸迴轉盤50。該等出力軸迴轉盤50共軸並排連接。 藉此,將後續替換上的該等第二滾子521分別對應設置於該等預留軸孔502上,達成出力軸迴轉盤50可第二次被使用以延長使用壽命的功效。值得一提的是,該等出力軸迴轉盤50也可為一體成型。Preferably, referring to FIG. 13, the output shaft rotary disk of the embodiment The group 5 further includes a power output shaft revolving disk 50 having a plurality of reserved shaft holes 502 formed at intervals on the outer peripheral surface. The output shaft rotary discs 50 are coaxially connected side by side. Thereby, the second rollers 521 on the subsequent replacement are respectively disposed on the reserved shaft holes 502, and the power shaft rotation disk 50 can be used for a second time to extend the service life. It is worth mentioning that the output shaft rotating discs 50 can also be integrally formed.

經由上述說明可知,該第三較佳實施例也具有與該第一較佳實施例相同的功效。As apparent from the above description, the third preferred embodiment also has the same effects as the first preferred embodiment.

惟以上所述者,僅為本新型之較佳實施例而已,當不能以此限定本新型實施之範圍,即大凡依本新型申請專利範圍及專利說明書內容所作之簡單的等效變化與修飾,皆仍屬本新型專利涵蓋之範圍內。However, the above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, that is, the simple equivalent changes and modifications made in accordance with the scope of the present patent application and the contents of the patent specification, All remain within the scope of this new patent.

4‧‧‧凸輪4‧‧‧ cam

41‧‧‧本體41‧‧‧Ontology

42‧‧‧凸肋42‧‧‧ ribs

43‧‧‧溝槽43‧‧‧ trench

5‧‧‧出力軸迴轉盤組5‧‧‧Output shaft rotary disc set

50‧‧‧出力軸迴轉盤50‧‧‧Power shaft rotary disc

500‧‧‧本體500‧‧‧ ontology

501‧‧‧軸孔501‧‧‧Axis hole

51‧‧‧第一滾子組51‧‧‧First Roller Group

511‧‧‧第一滾子511‧‧‧First Roller

512‧‧‧軸桿512‧‧‧ shaft

513‧‧‧滾動軸承513‧‧‧ rolling bearings

514‧‧‧接觸部514‧‧‧Contacts

515‧‧‧非接觸部515‧‧‧ Non-contact department

52‧‧‧第二滾子組52‧‧‧Second roller group

521‧‧‧第二滾子521‧‧‧Second roller

522‧‧‧軸桿522‧‧‧ shaft

523‧‧‧滾動軸承523‧‧‧ rolling bearings

L4‧‧‧軸線L4‧‧‧ axis

L5‧‧‧軸線L5‧‧‧ axis

Claims (10)

一種出力軸迴轉盤組,包含:一出力軸迴轉盤,包括一本體及多數間隔形成於該本體外周面的軸孔;及一第一滾子組,包括多數分別裝設於該等軸孔的第一滾子,各第一滾子具有一軸設於軸孔的軸桿,及一樞設於該軸桿且外露該出力軸迴轉盤外的滾動軸承,各第一滾子的滾動軸承外周面界定出一位於中央處的接觸部,及二分別位於該接觸部的兩相反側且直徑較小於該接觸部的直徑的非接觸部。The utility model relates to a power output shaft rotary disk set, comprising: a power output shaft rotary disk, comprising: a body and a plurality of axial holes formed at intervals on the outer peripheral surface of the body; and a first roller set including a plurality of respectively mounted on the axial holes a first roller, each of the first rollers has a shaft disposed on the shaft hole, and a rolling bearing pivoted on the shaft and exposing the outer shaft of the output shaft, and the outer peripheral surface of the rolling bearing of each first roller is defined a contact portion located at the center, and two non-contact portions respectively located on opposite sides of the contact portion and having a diameter smaller than the diameter of the contact portion. 如請求項1所述之出力軸迴轉盤組,其中,該出力軸迴轉盤還包括多數預留軸孔,該等預留軸孔形成於該本體外周面且分別位於每兩相鄰軸孔間,並可分別供該等第一滾子的軸桿軸設。The output shaft rotary disk set according to claim 1, wherein the output shaft rotary disk further comprises a plurality of reserved shaft holes formed on the outer peripheral surface of the body and located between each adjacent axial hole respectively. And can be respectively provided for the shaft shafts of the first rollers. 如請求項1所述之出力軸迴轉盤組,其中,該出力軸迴轉盤還包括多數預留軸孔,該等預留軸孔形成於該本體外周面且沿著該出力軸迴轉盤的軸向分別與該等軸孔並排設置,並可分別供該等第一滾子的軸桿軸設。The power shaft rotary disk set according to claim 1, wherein the power output shaft rotary disk further comprises a plurality of reserved shaft holes formed on the outer peripheral surface of the body and rotating the axis of the disk along the output shaft The shafts are respectively arranged side by side with the shaft holes, and can be respectively provided for the shafts of the first rollers. 如請求項1所述之出力軸迴轉盤組,還包含一可替換該第一滾子組的第二滾子組,該第二滾子組具有多數可裝設於該等軸孔的第二滾子,各第二滾子具有一可軸設於軸孔的軸桿,及一樞設於該軸桿且外露該出力軸迴轉盤外的滾動軸承,各第二滾子的滾動軸承外周 面圍繞呈圓柱形。The power shaft rotating disk group according to claim 1, further comprising a second roller group that can replace the first roller group, the second roller group having a plurality of second plurality of roller holes Roller, each of the second rollers has a shaft axially disposed on the shaft hole, and a rolling bearing pivoted on the shaft and exposed outside the rotating shaft of the output shaft, and the outer circumference of the rolling bearing of each second roller The face is surrounded by a cylindrical shape. 如請求項2所述之出力軸迴轉盤組,還包含一可替換該第一滾子組的第二滾子組,該第二滾子組具有多數可裝設於該等預留軸孔的第二滾子,各第二滾子具有一可軸設於預留軸孔的軸桿,及一樞設於該軸桿且外露該出力軸迴轉盤外的滾動軸承,各第二滾子的滾動軸承外周面圍繞呈圓柱形。The power shaft pivoting disk set according to claim 2, further comprising a second roller group that can replace the first roller group, the second roller group having a plurality of mounting shaft holes a second roller, each of the second rollers has a shaft axially disposed on the reserved shaft hole, and a rolling bearing pivoted on the shaft and exposing the outer shaft of the output shaft, and the rolling bearing of each second roller The outer peripheral surface is surrounded by a cylindrical shape. 如請求項3所述之出力軸迴轉盤組,還包含一可替換該第一滾子組的第二滾子組,該第二滾子組具有多數可裝設於該等預留軸孔的第二滾子,各第二滾子具有一可軸設於預留軸孔的軸桿,及一樞設於該軸桿且外露該出力軸迴轉盤外的滾動軸承,各第二滾子的滾動軸承外周面圍繞呈圓柱形。The power shaft rotating disk group according to claim 3, further comprising a second roller group that can replace the first roller group, the second roller group having a plurality of the plurality of roller holes that can be installed in the reserved shaft holes a second roller, each of the second rollers has a shaft axially disposed on the reserved shaft hole, and a rolling bearing pivoted on the shaft and exposing the outer shaft of the output shaft, and the rolling bearing of each second roller The outer peripheral surface is surrounded by a cylindrical shape. 如請求項1所述之出力軸迴轉盤組,還包含一可替換該第一滾子組的第二滾子組,該第二滾子組具有多數可裝設於該等軸孔的第二滾子,各第二滾子具有一可軸設於軸孔的軸桿,及一樞設於該軸桿且外露該出力軸迴轉盤外的滾動軸承,各第二滾子的滾動軸承的外周面界定出一位於中央處的非接觸部,及二分別位於該非接觸部的兩相反側且直徑較大於該非接觸部的直徑的接觸部。The power shaft rotating disk group according to claim 1, further comprising a second roller group that can replace the first roller group, the second roller group having a plurality of second plurality of roller holes Roller, each of the second rollers has a shaft axially disposed on the shaft hole, and a rolling bearing pivoted on the shaft and exposing the outer shaft of the output shaft, and the outer peripheral surface of the rolling bearing of each second roller is defined A non-contact portion located at the center, and two contact portions respectively located on opposite sides of the non-contact portion and having a diameter larger than the diameter of the non-contact portion. 如請求項2所述之出力軸迴轉盤組,還包含一可替換該第一滾子組的第二滾子組,該第二滾子組具有多數可裝設於該等預留軸孔的第二滾子,各第二滾子具有一可軸設於預留軸孔的軸桿,及一樞設於該軸桿且外 露該出力軸迴轉盤外的滾動軸承,各第二滾子的滾動軸承外周面界定出一位於中央處的非接觸部,及二分別位於該非接觸部的兩相反側且直徑較大於該非接觸部的直徑的接觸部。The power shaft pivoting disk set according to claim 2, further comprising a second roller group that can replace the first roller group, the second roller group having a plurality of mounting shaft holes a second roller, each of the second rollers has a shaft axially disposed on the reserved shaft hole, and a shaft is pivoted outside the shaft Rolling bearing outside the output shaft rotating disc, the outer peripheral surface of the rolling bearing of each second roller defines a non-contact portion at the center, and two are respectively located on opposite sides of the non-contact portion and have a diameter larger than the diameter of the non-contact portion Contact. 如請求項3所述之出力軸迴轉盤組,還包含一可替換該第一滾子組的第二滾子組,該第二滾子組具有多數可裝設於該等預留軸孔的第二滾子,各第二滾子具有一可軸設於預留軸孔的軸桿,及一樞設於該軸桿且外露該出力軸迴轉盤外的滾動軸承,各第二滾子的滾動軸承外周面界定出一位於中央處的非接觸部,及二分別位於該非接觸部的兩相反側且直徑較大於該非接觸部的直徑的接觸部。The power shaft rotating disk group according to claim 3, further comprising a second roller group that can replace the first roller group, the second roller group having a plurality of the plurality of roller holes that can be installed in the reserved shaft holes a second roller, each of the second rollers has a shaft axially disposed on the reserved shaft hole, and a rolling bearing pivoted on the shaft and exposing the outer shaft of the output shaft, and the rolling bearing of each second roller The outer peripheral surface defines a non-contact portion at the center, and two contact portions respectively located on opposite sides of the non-contact portion and having a diameter larger than the diameter of the non-contact portion. 一種滾齒凸輪傳動裝置,包含:一凸輪,包括一本體,及一沿著軸向曲線環繞設置於該本體外周面的凸肋,該凸肋與該本體相配合界定形成一溝槽;及一如請求項1至9項中任一項所述的出力軸迴轉盤組,該出力軸迴轉盤組與該凸輪相組接,該出力軸迴轉盤與該凸輪兩者的軸向相異,且該等第一滾子其中至少一者的滾動軸承是容設於該凸輪的溝槽內;其中,當該凸輪旋轉時,該凸輪的凸肋沿著軸向移動,使得容設於該溝槽內的滾動軸承的接觸部可滾動地抵靠於該凸肋內壁面,進而受到該凸肋推 移,以帶動該出力軸迴轉盤旋轉,在此過程中,該等滾動軸承隨著該出力軸迴轉盤旋轉依序循環地進入該凸輪的溝槽而受該凸輪的凸肋旋轉推移,藉此該凸輪可持續驅動該出力軸迴轉盤組旋轉直到該凸輪停止旋轉為止。A hobbing cam transmission device comprising: a cam, comprising a body, and a rib disposed along the axial curve around the outer peripheral surface of the body, the rib cooperating with the body to define a groove; and a The output shaft rotary disk set according to any one of claims 1 to 9, wherein the output shaft rotary disk group is coupled to the cam, and the output shaft rotary disk and the cam have axial directions different from each other, and a rolling bearing of at least one of the first rollers is received in the groove of the cam; wherein, when the cam rotates, the rib of the cam moves along the axial direction so as to be received in the groove The contact portion of the rolling bearing can roll against the inner wall surface of the rib and be pushed by the rib Shifting to drive the output shaft to rotate the disk. In the process, the rolling bearings are sequentially rotated into the groove of the cam as the output shaft rotates, and are rotated by the rib of the cam, thereby The cam continuously drives the output shaft to rotate the disk group until the cam stops rotating.
TW103208049U 2014-05-08 2014-05-08 Power shaft revolution plate set and roller teeth cam drive device TWM491106U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI557345B (en) * 2014-05-08 2016-11-11 Output shaft rotary disc group and hobbing cam drive
TWI666395B (en) * 2018-05-23 2019-07-21 邱垂財 Double-row hobbing cam transmission structure
TWI783665B (en) * 2021-09-03 2022-11-11 聖杰國際股份有限公司 Internal drive indexer

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI557345B (en) * 2014-05-08 2016-11-11 Output shaft rotary disc group and hobbing cam drive
TWI666395B (en) * 2018-05-23 2019-07-21 邱垂財 Double-row hobbing cam transmission structure
TWI783665B (en) * 2021-09-03 2022-11-11 聖杰國際股份有限公司 Internal drive indexer

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