TWM551664U - Rolling-friction type harmonic reducer - Google Patents
Rolling-friction type harmonic reducer Download PDFInfo
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- TWM551664U TWM551664U TW106212731U TW106212731U TWM551664U TW M551664 U TWM551664 U TW M551664U TW 106212731 U TW106212731 U TW 106212731U TW 106212731 U TW106212731 U TW 106212731U TW M551664 U TWM551664 U TW M551664U
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本創作係與諧和式減速機有關,更詳而言之係指一種滾壓擦動式諧和減速機。This creation is related to a harmonic reducer, and more specifically to a rolling wiper harmonic reducer.
按,習知之諧和式減速機1,如第一圖至第三圖所示,主要由三個元件所構成,分別為一波產生器2(Wave Generator)、一撓輪3(Flex Spline)及一外環輪4(Circular Spline),該波產生器2外形呈橢圓,供輸入一旋轉動力,該撓輪3之開口側為易彈性變形之薄壁,外周面具有一環形外齒5,該外環輪4於內周面具有一環形內齒6,該波產生器2係塞入於該撓輪3中,使該撓輪3之開口側隨著該波產生器2之外形而變形為橢圓,再將該撓輪3置於該外環輪4內,使撓輪3之局部環形外齒5與該外環輪4之局部環形內齒6嚙合,當該波產生器2開始旋轉時,由於撓輪3之環形外齒5與外環輪4之環形內齒6有齒數差,即當撓輪3之環形外齒5的齒數少於外環輪4之環形內齒6齒數時,便能達到高扭力、減速輸出之功效,由於其減速原理屬習知技藝,容不在此多加贅述。 惟,上述習知之諧和式減速機1,雖然具備構件簡單、背隙小、輕量、體積小、高扭力負載輸出及高精度等優點。但,卻也因為需要高扭力輸出之故,因此在撓輪3與外環輪4之製成材料上便要使用耐疲勞性強度極高之特殊鋼材所製成,但如此一來,整體之製造成本便會提高許多。況且,由於其高精度需求之故,因此撓輪3之環形外齒5寬度與外環輪4之環形內齒6寬度,便需要一定之寬度,才能足以提供高精度之傳動,但,如此一來卻也導致加工上之困難及撓輪3之環形外齒5寬度與外環輪4之環形內齒6間容易產生磨損。於此,當習知之諧和式減速機無須使用在高扭力負載輸出及高精度傳動之場合時,反而有了製造成本增加、加工困難及容易產生磨損等問題。According to the conventional harmonic reducer 1, as shown in the first to third figures, it is mainly composed of three components, namely a Wave Generator, a Flex Spline, and An outer ring wheel 4 (Circular Spline), the wave generator 2 has an elliptical shape for inputting a rotational power, the open side of the flexible wheel 3 is a thin wall which is elastically deformable, and the outer peripheral mask has an annular outer tooth 5, which The outer ring wheel 4 has an annular inner tooth 6 on the inner circumference of the mask, and the wave generator 2 is inserted into the flexible wheel 3, so that the open side of the flexible wheel 3 is deformed according to the shape of the wave generator 2 Elliptical, and then the flexible wheel 3 is placed in the outer ring wheel 4, so that the partial annular external teeth 5 of the flexible wheel 3 mesh with the partial annular internal teeth 6 of the outer ring wheel 4, when the wave generator 2 starts to rotate Since the annular outer teeth 5 of the flexible wheel 3 and the annular inner teeth 6 of the outer ring wheel 4 have a difference in the number of teeth, that is, when the number of teeth of the annular outer teeth 5 of the flexible wheel 3 is smaller than the number of teeth of the annular inner teeth 6 of the outer ring wheel 4, It can achieve the effect of high torque and deceleration output. Because its deceleration principle is a well-known skill, it is not necessary to repeat it here. However, the above-described conventional harmonic reducer 1 has the advantages of simple structure, small backlash, light weight, small volume, high torque load output, and high precision. However, because of the need for high torque output, the material of the flexible wheel 3 and the outer ring wheel 4 is made of a special steel with extremely high fatigue resistance, but as a result, the whole Manufacturing costs will increase a lot. Moreover, due to its high precision demand, the width of the annular outer teeth 5 of the flexible wheel 3 and the width of the annular inner teeth 6 of the outer ring wheel 4 require a certain width to provide a high-precision transmission, but such a However, it also causes difficulty in processing and the wear of the annular outer teeth 5 of the flexible wheel 3 and the annular inner teeth 6 of the outer ring wheel 4 are prone to wear. Here, when the conventional harmonic reducer does not need to be used in the case of high-torque load output and high-precision transmission, there are problems such as increased manufacturing cost, difficulty in processing, and wear and tear.
有鑑於此,為改善先前技術中,習知諧和式減速機有著製造成本高、加工困難及容易磨損等問題;緣此,本創作乃提供一種滾壓擦動式諧和減速機,其主要包含有:一波產生器,具有橢圓形外廓;一撓輪,具有一輸出端及一與該輸出端連接之開放環壁,該開放環壁之外周面上具有一環狀之外滾壓區,該外滾壓區具有一鄰接於端緣之環形外齒及一與該環形外齒鄰接之環形外曲面;一外環輪,一端軸向往內延伸有一容置孔,該容置孔之內周面上具有一內滾壓區,該內滾壓區具有一鄰接於端緣之環形內齒及一與該環形內齒鄰接之環形內曲面;該波產生器係塞入於該撓輪之開放環壁中,該波產生器之外廓抵接於對應該外滾壓區位置之開放環壁內周面上,使該撓輪之外滾壓區隨之變形為橢圓外廓,該撓輪係置於該外環輪之容置孔內,且該撓輪之外滾壓區抵接於該外環輪之內滾壓區上,使由局部之環形外齒與局部之環形內齒嚙合,而局部之環形外曲面則與局部之環形內曲面抵接;藉以達到中扭力減速輸出、降低製造成本、加工容易及不易磨損等功效。 本創作更提供另一種滾壓擦動式諧和減速機,其主要包含有:一波產生器,具有橢圓形外廓;一撓輪,具有一輸出端及一與該輸出端連接之開放環壁,該開放環壁之外周面上具有一環狀之外滾壓區,該外滾壓區為連續之環形外曲面;一外環輪,一端軸向往內延伸有一容置孔,該容置孔之內周面上具有一內滾壓區,該內滾壓區為連續之環形內曲面;該波產生器係塞入於該撓輪之開放環壁中,該波產生器之外廓抵接於對應該外滾壓區位置之開放環壁內周面上,使該撓輪之外滾壓區隨之變形為橢圓外廓,該撓輪係置於該外環輪之容置孔內,且該撓輪之外滾壓區抵接於該外環輪之內滾壓區上;藉以達到低扭力減速輸出、降低製造成本、加工容易及不易磨損等功效。In view of this, in order to improve the prior art, the conventional harmonic reducer has the problems of high manufacturing cost, difficulty in processing, and easy wear and tear; thus, the present invention provides a rolling rubbing type harmonic reducer, which mainly includes a wave generator having an elliptical outer shape; a flexible wheel having an output end and an open ring wall connected to the output end, the outer peripheral surface of the open ring wall having an annular outer rolling zone, The outer rolling zone has an annular outer tooth adjacent to the end edge and an annular outer curved surface adjacent to the annular outer tooth; and an outer ring wheel extending axially inwardly at one end, the inner circumference of the receiving hole The surface has an inner rolling zone having an annular inner tooth adjacent to the end edge and an annular inner curved surface adjoining the annular inner tooth; the wave generator is inserted into the flexible wheel In the annular wall, the outer contour of the wave generator abuts against the inner circumferential surface of the open annular wall corresponding to the position of the outer rolling zone, so that the rolling zone outside the flexible wheel is deformed into an elliptical outer contour, the flexible wheel Is placed in the receiving hole of the outer ring wheel, and the rolling zone outside the flexible wheel abuts The inner annular rolling wheel of the outer ring wheel is meshed with the partial annular outer teeth and the partial annular outer curved surface is abutted with the partial annular inner curved surface; thereby achieving the medium torque to reduce the output and reduce Manufacturing costs, easy processing and not easy to wear and other effects. The present invention further provides another rolling friction type harmonic reducer, which mainly comprises: a wave generator having an elliptical profile; a flexible wheel having an output end and an open ring wall connected to the output end The outer circumferential surface of the open annular wall has an annular outer rolling zone, wherein the outer rolling zone is a continuous annular outer curved surface; and an outer ring wheel has an receiving hole extending axially inwardly at one end, the receiving hole The inner circumferential surface has an inner rolling zone, and the inner rolling zone is a continuous annular inner curved surface; the wave generator is inserted into the open annular wall of the flexible wheel, and the wave generator abuts The rolling zone outside the flexible wheel is deformed into an elliptical outer contour on the inner circumferential surface of the open annular wall corresponding to the position of the outer rolling zone, and the flexible wheel is placed in the receiving hole of the outer ring wheel. The rolling zone outside the flexible wheel abuts on the rolling zone of the outer ring wheel; thereby achieving low torque deceleration output, reducing manufacturing cost, easy processing and less wear and tear.
為使貴審查委員能對本創作之特徵與其特點有更進一步之了解與認同,茲列舉以下之實施例並配合圖式說明如下: 請參閱第四圖至第十六圖,係本創作第一較佳實施例所提供一種滾壓擦動式諧和減速機100,其主要包含有一波產生器10、一撓輪20及一外環輪30,其中: 請參閱第四圖至第六圖,該波產生器10,具有橢圓形外廓,用以輸入旋轉動力。 請參閱第四圖至第六圖,該撓輪20,具有一輸出端21及一自該輸出端21周緣往軸向一體連接延伸而出之開放環壁22,該開放環壁22鄰近自由端緣之外周面上具有一環狀之外滾壓區221,該外滾壓區221具有一鄰接於自由端緣之環形外齒222及一與該環形外齒222鄰接之環形外曲面223,該環形外曲面223為連續無凸起、凹陷之曲面。 請參閱第四圖至第六圖,該外環輪30,具有一環座31及一環體32,該環座31一端軸向往內延伸有一容置孔311及一位於該容置孔311周緣往內凹陷之凹陷區312,該容置孔311鄰接於凹陷區312之內周面上具有一環形內曲面313,該環形內曲面313為連續無凸起、凹陷之曲面,該環體32係藉由若干螺絲33而鎖固於該環座31之凹陷區312中,該環體32之內周面上具有一環形內齒321,以由該環形內齒321與該環形內曲面313共構成一環狀之內滾壓區34。 該波產生器10係塞入於該撓輪20之開放環壁22中,且該波產生器10之外廓並抵接於對應該外滾壓區221位置之開放環壁22內周面上,使該撓輪20之外滾壓區221隨之變形為橢圓外廓,該撓輪20係置於該外環輪30之容置孔311內,且該撓輪20之外滾壓區221並抵接於該外環輪30之內滾壓區34上,即由局部之環形外齒222與局部之環形內齒321嚙合,而局部之環形外曲面223則與局部之環形內曲面313抵接。 是以,上述即為本創作第一較佳實施例所提供滾壓擦動式諧和減速機100各部構件及其組裝方式之介紹,接著再將其使用特點介紹如下: 首先,請參閱第七圖至第十六圖所示,當由該波產生器10輸入一旋轉動力時,藉由橢圓形波產生器10之兩相對高點對撓輪20外滾壓區221位置之開放環壁22內周面及外環輪之內滾壓區34所施予的預壓力,及橢圓形波產生器10之兩相對高點抵壓於撓輪20外滾壓區221位置之開放環壁22內周面上而不斷滾動時,該撓輪20之外滾壓區221乃隨著波產生器10的滾動而不斷變形為橢圓形之故,而能在外環輪30之內滾壓區34以變換抵接位置地進行反向地滾壓轉動,以由該輸出端21進行減速輸出。 是以,由於在本實施例中,該撓輪20之外滾壓區221中僅有局部為環形外齒222,而該外環輪30之內滾壓區34中僅有局部為環形內齒321,因此兩者間嚙合傳動之扭力不大,不僅可讓本創作適用在無須輸出太大扭力之裝置、機構上,更能讓撓輪20與外環輪30之環座31,改以耐疲勞強度較低之鋼材或甚至以工程塑料製成,進而達到降低製造成本之功效。 另外,由於該撓輪20與該外環輪30抵接之外滾壓區221與內滾壓區34中,該環形外曲面223與該環形內曲面313接觸之面積與寬度,皆大於該環形外齒222與該與環形內齒321接觸之面積與寬度(即在該外滾壓區221中,該環形外曲面223之面積佔比大於該環形外齒222之面積佔比,而在該內滾壓區34中,該環形內曲面313之面積佔比大於該環形內齒321之面積佔比),且該撓輪20外滾壓區221中,位於環形外齒222位置之內周面孔徑係較位於環形外曲面223位置之內周面孔徑稍微大一點,因此其在滾壓傳動時之作用力(預壓力)大部分係作用在該環形外曲面223及其內周面與該環形內曲面313間,而得以降低環形外齒222與該與環形內齒321接觸時之作用力,進而達到降低磨損之功效。 再者,由於本實施例在外滾壓區221與內滾壓區34中,分別設有環形外曲面223與環形內曲面313來進行滾壓傳動,因此撓輪20之環形外齒222寬度與該外環輪30之環形內齒321寬度,便能較習知諧和式減速機要來得短,以達到加工容易之功效。 是以,本創作極適用在中扭力或低扭力輸出之裝置、機構、機械手臂或機器人上。 請參閱第十七圖所示,係本創作第二較佳實施例所提供一種滾壓擦動式諧和減速機200,其與前述實施例相同包含有一波產生器40、一撓輪50及一外環輪60,惟其主要差異在於: 於本實施例中,該外環輪60係一體製成,即該內滾壓區64之環形內曲面613與環形內齒621皆係形成於容置孔611之內周孔壁面上。雖然本實施例之外環輪60與該前述實施例之外環輪略有差異,但其皆可達到相同之功效。 請參閱第十八圖及第十九圖所示,係本創作第三較佳實施例所提供一種滾壓擦動式諧和減速機300,其與前述實施例相同包含有一波產生器70、一撓輪80及一外環輪90,惟其主要差異在於: 於本實施例中,該撓輪80之外滾壓區821上僅設有環形外曲面823,而無須設置環形外齒。該外環輪90之內滾壓區94上僅設有環形內曲面913,而無須設置環形內齒。雖然本實施例並未設置環形外齒與環形內齒進行嚙合,但由於本創作無須大扭力輸出,因此僅以外滾壓區821之環形外曲面823與內滾壓區94之環形內曲面913進行滾壓傳動,藉外環輪90之內滾壓區94之圓周長係大於撓輪80之外滾壓區821之圓周長有一預定之長度,即能進行減速之低扭力輸出,而能適用於無須高精度減速傳動之裝置、機構、設備上,進而達到本創作之目的與功效。 以上所揭,僅為本創作所提供之較佳實施例而已,並非用以限制本創作之實施範圍,凡本技術領域內之相關技藝者根據本創作所為之均等變化,皆應屬本創作所涵蓋之範圍。In order to enable your review committee to have a better understanding and recognition of the characteristics and characteristics of this creation, the following examples are listed and explained with the following diagram: Please refer to the fourth to the sixteenth figures, which is the first comparison of this creation. A preferred embodiment of the present invention provides a rolling wiper type harmonic reducer 100, which mainly comprises a wave generator 10, a flexible wheel 20 and an outer ring wheel 30, wherein: see the fourth to sixth figures, the wave The generator 10 has an elliptical profile for inputting rotational power. Referring to the fourth to sixth figures, the flexible wheel 20 has an output end 21 and an open annular wall 22 extending integrally from the periphery of the output end 21 in an axial direction. The open annular wall 22 is adjacent to the free end. The outer peripheral surface of the rim has an annular outer rolling zone 221 having an annular outer tooth 222 adjacent to the free end edge and an annular outer curved surface 223 adjacent to the annular outer tooth 222. The annular outer curved surface 223 is a continuous curved surface without protrusions and depressions. Referring to the fourth to sixth embodiments, the outer ring wheel 30 has a ring seat 31 and a ring body 32. One end of the ring seat 31 extends axially inwardly and has a receiving hole 311 and a hole located in the periphery of the receiving hole 311. a concave recessed area 312 having an annular inner curved surface 313 adjacent to the inner peripheral surface of the recessed area 312, the annular inner curved surface 313 being a curved surface without continuous protrusions and depressions, the ring body 32 being A plurality of screws 33 are locked in the recessed area 312 of the ring seat 31. The inner peripheral surface of the ring body 32 has an annular inner tooth 321 to form a ring from the annular inner tooth 321 and the annular inner curved surface 313. The inner rolling zone 34. The wave generator 10 is inserted into the open annular wall 22 of the flexible wheel 20, and the wave generator 10 has an outer contour and abuts against the inner circumferential surface of the open annular wall 22 corresponding to the position of the outer rolling zone 221 The rolling zone 221 of the outer ring wheel 20 is deformed into an elliptical outer shape, and the flexible wheel 20 is disposed in the receiving hole 311 of the outer ring wheel 30, and the rolling zone 221 outside the flexible wheel 20 And abutting on the inner rolling zone 34 of the outer ring wheel 30, that is, the partial annular outer teeth 222 mesh with the partial annular inner teeth 321 , and the partial annular outer curved surface 223 is in contact with the partial annular inner curved surface 313. Pick up. Therefore, the above is the introduction of the components of the rolling and rubbing type harmonic reducer 100 and the assembly method thereof according to the first preferred embodiment of the present invention, and then the use characteristics thereof are as follows: First, please refer to the seventh figure. As shown in Fig. 16, when a rotational power is input from the wave generator 10, the two opposite high points of the elliptical wave generator 10 are in the open annular wall 22 of the outer rolling zone 221 of the flexible wheel 20. The pre-pressure applied by the rolling zone 34 in the circumferential surface and the outer ring wheel, and the two opposite high points of the elliptical wave generator 10 are pressed against the inner circumference of the open annular wall 22 at the position of the outer rolling zone 221 of the deflection wheel 20. When the surface is continuously rolled, the rolling zone 221 outside the flexible wheel 20 is deformed into an elliptical shape as the wave generator 10 rolls, and the rolling zone 34 can be transformed within the outer ring wheel 30. The abutting position is reversely rolled and rotated to be decelerated by the output end 21. Therefore, in the present embodiment, only the portion of the rolling zone 221 outside the flexible wheel 20 is an annular external tooth 222, and only the inner rolling zone 34 of the outer ring wheel 30 is a ring-shaped internal tooth. Therefore, the torque of the meshing transmission between the two is not large, which not only allows the creation of the invention to be applied to devices and mechanisms that do not require too much torque, but also allows the ring seat 31 of the deflection wheel 20 and the outer ring wheel 30 to be resistant. Steels with lower fatigue strength or even engineering plastics can reduce the cost of manufacturing. In addition, since the flexure wheel 20 abuts the outer ring wheel 30 and the inner rolling zone 34, the area and width of the annular outer curved surface 223 contacting the annular inner curved surface 313 are larger than the annular shape. The area and width of the outer teeth 222 in contact with the annular inner teeth 321 (i.e., in the outer rolling zone 221, the area ratio of the annular outer curved surface 223 is greater than the area ratio of the outer annular teeth 222, and In the rolling zone 34, the area ratio of the annular inner curved surface 313 is larger than the area ratio of the annular inner tooth 321), and the inner circumferential surface of the outer rolling element 221 of the flexible wheel 20 is located at the outer circumferential surface of the annular outer tooth 222. The inner peripheral surface of the annular outer surface 223 is slightly larger than the inner peripheral surface of the annular outer curved surface 223, so that the force (pre-pressure) of the rolling transmission is mostly applied to the annular outer curved surface 223 and its inner peripheral surface and the annular shape. Between the curved surfaces 313, the force of the annular outer teeth 222 and the annular inner teeth 321 are reduced, thereby achieving the effect of reducing wear. Furthermore, in the present embodiment, the annular outer curved surface 223 and the annular inner curved surface 313 are respectively provided in the outer rolling zone 221 and the inner rolling zone 34 for rolling transmission, so that the width of the annular outer teeth 222 of the flexible wheel 20 is The width of the annular inner teeth 321 of the outer ring wheel 30 can be shorter than that of the conventional harmonic reducer to achieve the effect of easy processing. Therefore, this creation is extremely suitable for devices, mechanisms, robots or robots with medium torsion or low torque output. Referring to FIG. 17 , a second embodiment of the present invention provides a rolling wiper type harmonic reducer 200, which comprises a wave generator 40, a flexible wheel 50 and a same as the previous embodiment. The outer ring wheel 60 is the main difference: in the embodiment, the outer ring wheel 60 is integrally formed, that is, the annular inner curved surface 613 and the annular inner tooth 621 of the inner rolling zone 64 are formed in the receiving hole. 611 inside the inner wall of the hole. Although the outer ring 60 of the present embodiment is slightly different from the outer ring of the foregoing embodiment, it can achieve the same effect. Referring to FIG. 18 and FIG. 19, a third embodiment of the present invention provides a rolling wiper type harmonic reducer 300, which comprises a wave generator 70 and a same as the previous embodiment. The main difference between the flexing wheel 80 and the outer ring wheel 90 is that: in the embodiment, only the annular outer curved surface 823 is provided on the rolling area 821 of the flexible wheel 80, and no annular outer teeth are required. Only the annular inner curved surface 913 is provided on the inner rolling zone 94 of the outer ring wheel 90, and no annular inner teeth are required. Although the present embodiment does not provide the annular outer teeth to engage the annular inner teeth, since the present invention does not require a large torque output, only the annular outer curved surface 823 of the outer rolling zone 821 and the annular inner curved surface 913 of the inner rolling zone 94 are performed. In the rolling transmission, the circumferential length of the rolling zone 94 in the outer ring wheel 90 is larger than the circumference of the rolling zone 821 outside the deflection wheel 80 by a predetermined length, that is, the low torque output can be decelerated, and can be applied to The device, mechanism and equipment of the high-precision reduction transmission are not required, thereby achieving the purpose and effect of the creation. The above description is only for the preferred embodiment provided by the present invention, and is not intended to limit the scope of implementation of the present invention. All of the relevant artisans in the art are equally varied according to the present creation, and should belong to the present invention. The scope of coverage.
「習知」
1‧‧‧諧和式減速機
2‧‧‧波產生器
3‧‧‧撓輪
4‧‧‧外環輪
5‧‧‧環形外齒
6‧‧‧環形內齒
「本創作第一較佳實施例」
100‧‧‧滾壓擦動式諧和減速機
10‧‧‧波產生器
20‧‧‧撓輪
21‧‧‧輸出端
22‧‧‧開放環壁
221‧‧‧外滾壓區
222‧‧‧環形外齒
223‧‧‧環形外曲面
30‧‧‧外環輪
31‧‧‧環座
311‧‧‧容置孔
313‧‧‧環形內曲面
312‧‧‧凹陷區
32‧‧‧環體
321‧‧‧環形內齒
33‧‧‧螺絲
34‧‧‧內滾壓區
「本創作第二較佳實施例」
200‧‧‧滾壓擦動式諧和減速機
40‧‧‧波產生器
50‧‧‧撓輪
60‧‧‧外環輪
64‧‧‧內滾壓區
613‧‧‧環形內曲面
621‧‧‧環形內齒
611‧‧‧容置孔
「本創作第三較佳實施例」
300‧‧‧滾壓擦動式諧和減速機
70‧‧‧波產生器
80‧‧‧撓輪
821‧‧‧外滾壓區
823‧‧‧環形外曲面
90‧‧‧外環輪
94‧‧‧內滾壓區
913‧‧‧環形內曲面"Knowledge"
1‧‧‧harmonic reducer
2‧‧•wave generator
3‧‧‧Flexing wheel
4‧‧‧ outer ring wheel
5‧‧‧Round external teeth
6‧‧‧Ring internal teeth "First preferred embodiment of the creation"
100‧‧‧Rolling wiper harmonic reducer
10‧‧‧wave generator
20‧‧‧Flexing wheel
21‧‧‧ Output
22‧‧‧Opening the wall
221‧‧‧External rolling zone
222‧‧‧Circular external teeth
223‧‧‧Circular outer surface
30‧‧‧Outer Ring Wheel
31‧‧‧ ring seat
311‧‧‧ 容孔
313‧‧‧Circular inner surface
312‧‧‧ recessed area
32‧‧‧Act
321‧‧‧Ring internal teeth
33‧‧‧ screws
34‧‧‧Inward rolling zone "The second preferred embodiment of the creation"
200‧‧‧Rolling friction harmonic reducer
40‧‧‧wave generator
50‧‧‧
60‧‧‧ outer ring wheel
64‧‧‧Inward rolling zone
613‧‧‧Circular inner surface
621‧‧‧Ring internal teeth
611‧‧‧ 容孔孔 "The third preferred embodiment of the creation"
300‧‧‧Rolling friction harmonic reducer
70‧‧‧wave generator
80‧‧‧
821‧‧‧External rolling zone
823‧‧‧Circular outer surface
90‧‧‧ outer ring wheel
94‧‧‧Inward rolling zone
913‧‧‧Circular inner surface
第一圖係習知一種諧和式減速機之立體分解圖。 第二圖係第一圖所示習知諧和式減速機之立體組合圖。 第三圖係第一圖所示習知諧和式減速機之正視圖。 第四圖係本創作第一較佳實施例之立體分解圖。 第五圖係第四圖所示實施例之立體組合圖。 第六圖係第四圖所示實施例之組合剖視暨局部放大圖。 第七圖至第十六圖係第四圖所示實施例之作動示意圖。 第十七圖係本創作第二較佳實施例之立體分解圖。 第十八圖係本創作第三較佳實施例之立體分解圖。 第十九圖係第十八圖所示實施例之組合剖視暨局部放大圖。The first figure is a perspective exploded view of a harmonic reducer. The second figure is a three-dimensional combination diagram of the conventional harmonic reducer shown in the first figure. The third figure is a front view of the conventional harmonic reducer shown in the first figure. The fourth drawing is an exploded perspective view of the first preferred embodiment of the present creation. The fifth drawing is a perspective assembled view of the embodiment shown in the fourth figure. The sixth drawing is a combined cross-sectional view and a partial enlarged view of the embodiment shown in the fourth figure. 7 to 16 are schematic views of the operation of the embodiment shown in the fourth figure. Figure 17 is a perspective exploded view of a second preferred embodiment of the present invention. Figure 18 is an exploded perspective view of a third preferred embodiment of the present invention. Figure 19 is a combined cross-sectional view and a partial enlarged view of the embodiment shown in Figure 18.
100‧‧‧滾壓擦動式諧和減速機 100‧‧‧Rolling wiper harmonic reducer
10‧‧‧波產生器 10‧‧‧wave generator
20‧‧‧撓輪 20‧‧‧Flexing wheel
21‧‧‧輸出端 21‧‧‧ Output
22‧‧‧開放環壁 22‧‧‧Opening the wall
221‧‧‧外滾壓區 221‧‧‧External rolling zone
222‧‧‧環形外齒 222‧‧‧Circular external teeth
223‧‧‧環形外曲面 223‧‧‧Circular outer surface
30‧‧‧外環輪 30‧‧‧Outer Ring Wheel
31‧‧‧環座 31‧‧‧ ring seat
311‧‧‧容置孔 311‧‧‧ 容孔
313‧‧‧環形內曲面 313‧‧‧Circular inner surface
312‧‧‧凹陷區 312‧‧‧ recessed area
32‧‧‧環體 32‧‧‧Act
321‧‧‧環形內齒 321‧‧‧Ring internal teeth
33‧‧‧螺絲 33‧‧‧ screws
34‧‧‧內滾壓區 34‧‧‧Inward rolling zone
Claims (10)
Priority Applications (1)
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TW106212731U TWM551664U (en) | 2017-08-28 | 2017-08-28 | Rolling-friction type harmonic reducer |
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---|---|---|---|
TW106212731U TWM551664U (en) | 2017-08-28 | 2017-08-28 | Rolling-friction type harmonic reducer |
Publications (1)
Publication Number | Publication Date |
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TWM551664U true TWM551664U (en) | 2017-11-11 |
Family
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Country Status (1)
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI646274B (en) * | 2017-08-28 | 2019-01-01 | 簡雪赺 | Rolling wiper harmonic reducer |
-
2017
- 2017-08-28 TW TW106212731U patent/TWM551664U/en unknown
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI646274B (en) * | 2017-08-28 | 2019-01-01 | 簡雪赺 | Rolling wiper harmonic reducer |
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