.M354722 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種旋壓式按鍵卡榫結構改良,尤指一 種可在按壓後進行持續轉動的旋壓式卡榫。 【先前技術】 旋壓式按鍵卡榫一般係運用於閥位控制裝置之手動調 整機構,或是瓦斯爐、熱水器之點火機構等等,藉按壓後 選擇性地與一被動元件相接’接著始能驅動該被:元件。 _ #見第六及七圖所示’為-現有技術之閥位控制裝置 (4〇)’其主要包括有-座體⑷)、_外蓋(42)、_從動齒輪 (43)及一推桿(44),座體(4υ的一端内凹形成有一容槽 (411),座體(41)另端則可與一管路(圖巾未示)連接,外蓋(42) 蓋合於座體(41)之容槽(411)上,從動齒輪(43)設於座體^41) 之容槽(411)内,其軸心處軸向貫穿有—螺孔,推桿州的 一端環設有螺m設有螺紋㈣端貫穿超(41)之容 槽⑷1)以及從動齒輪(43)之螺孔,而與該從動齒輪(43)以 螺紋相嚅合’推桿(44)的另端則可進—步與管路中的閥塞 、(圖中未示)相接’當該從動齒輪(43)轉動時,會使該推桿(44) 帶動閥塞沿推桿(44)之軸向直線移動,藉此調整管路之闊 位。 其中,驅動上述從動齒輪(43)進行轉動的方式主要有 自動電控式及手動機械式兩種。自動電控式係於座體(4” 之容槽(411)内進—步設有一馬達驅動組(圖中未示),利用 該馬達驅動組來驅動從動齒輪(43)轉動。 3 M354722 而手動機械式則是在前述從動齒輪(43)旁側加設一與 其相互嚅合的主動齒輪(50),該主動齒輪(5〇)之軸心處軸 向突伸有一連接軸(51);另於前述外蓋(42)上進一步内凹 形成有一凹槽(421 ),該凹槽(421)底部朝外蓋(42)内側突 伸有一套筒(422),該套筒(422)係與該主動齒輪(5〇)之連 接軸(51)軸向對應設置’且套筒(422)之自由端處間隔軸向 内凹設有至少一卡槽(423); 此外,再於該外蓋(42)之凹槽(421)與套筒(422)之間 φ 進一步設有一旋轉組件(60),該旋轉組件(6〇)包含有一轉 軸(61 )、一壓紐(62)及一彈性件(63),該轉軸(61)穿設於外 蓋(42)之套筒(422)之間’其環壁面上靠近内端部處徑向突 伸有至少一凸塊(611〉,該凸塊(611)可抵頂於外蓋(42)之 套筒(422)的自由端,亦可穿設於該套筒(422)之卡槽(423) 間,該壓紐(62)設於外蓋(42)之凹槽(421)中,且固接於轉 軸(61)之外端部,該彈性件(63)止撐於外蓋(42)之凹槽(421) 的底部以及該壓鈕(62)之間。 φ 於自然狀態下’旋轉組件(60)之轉轴(61)與壓紐(62)係 受彈性件(63)之推頂而朝外蓋(42)之外部突伸,又藉轉軸 (61) 之凸塊(611)抵頂於外蓋(42)之套筒(422)的自由端或是 套筒(422)之卡槽(423)底部,以防止該旋轉組件(6〇)與該 外蓋(42)相互分離。 進一步參見第八圖所示,當按壓旋轉組件(60)之壓鈕 (62) 與轉軸(61 ),使轉軸(61)之凸塊(611)脫離外蓋(42)之 套筒(422)的卡槽(423),並使轉軸(61)之内端部與主動齒 輪(50)之連接軸(51)相接後,接著便可透過轉動壓鈕(62)及 4 M354722 轉軸(61),以依序帶動主動齒輪(5〇)及從動齒輪(43)轉動, 並進一步帶動推桿(44)軸向直線移動,藉此進行閥位之調 整。 惟在上述現有技術之手動機械式調整閥位的方式中, 一般使用者因為手部可轉動的角度有限,因此大約每旋轉 該壓鈕(62)半圈就必須放開壓鈕(62),將手部回轉至起始 位置後’再重複進行旋轉之步驟; 其中當使用者放開該壓鈕(62)時,旋轉組件(6〇)之彈 •性件(63)便會推頂壓鈕(62)及轉軸(61)朝外蓋(42)外部突 伸,如此將容易使轉軸(6彳)之凸塊(61彳)再次嵌設於外蓋(42) 之套官(422)的卡槽(423)中,因此使用者必須不斷地重複 按壓及旋轉的動作方能驅動該推桿(44)移動,不但費力而 且有其操作上的不便之處。 【新型内容】 有鑑於前述現有技術的不便,本創作提供一種旋壓式 按鍵卡榫結構改良,希藉此設計解決目前現有技術之旋壓 春式按鍵卡榫結構在使用時,必須先經一次按壓的動作方能 進行一次旋轉’因而造成費力且操作不便的缺點。 為了達到上述的創作.目的’本創作所利用的技術手段 係使一旋壓式按鍵卡榫結構改良包括有: 一外蓋’其上内凹形成有一凹槽’該凹槽底部朝外蓋 内側突伸有一中空固定套筒,該固定套筒之自由端處間: 軸向内凹設有至少一卡槽; 一旋轉組件設於外蓋之凹槽與固定套筒之間,其包入 有紅轉套筒、一轉軸、一第一壓紐、一第一彈性件、 5 M3 54722 第二壓紐及一第二彈性件,該旋轉套筒係可軸向移動地穿 設於外蓋之固定套筒之中,並成型有至少一卡槽以及至少 一定位孔,該卡槽間隔軸向内凹成型於旋轉套筒之内端 部,並與外蓋之固定套筒的卡槽相配合且可對應設置該 定位孔間穿成型於旋轉套筒之壁面上,該轉軸係可轴 向移動但不可相對旋轉套筒轉動地穿設於該旋轉套筒中, 該轉軸上徑向突伸有至少一凸塊,並套設有至少一定位 環,該凸塊可對應穿設於旋轉套筒與外蓋之固定套筒的卡 槽之間,該定位環可卡掣於旋轉㈣之定心H第 -壓鈕與轉軸之外端部相互固接,該第一彈性件止撐於該 旋轉套筒與該第-心之間’該第二彈性件止樓於旋轉套 筒之頭部與外蓋之凹槽底部之間。 本創作的優點在於’當按壓旋轉組件之第一壓鈕與轉 ’可使轉軸之凸塊會脫離旋轉套筒與外蓋之固定套筒 =切,並使其定位環卡掣於旋轉套筒之定位孔間,故該 f與轉轴不會受該第一彈性件之彈性恢復力的推頂 反:移動,因此可連續轉動第二壓此帶動旋轉套 靖、第—壓紐以及轉軸—同相對外蓋轉動; 定位要按壓該第二壓-及旋轉套筒,使旋轉套筒之 及對脫離,接著第-壓紐、轉軸以 的外部移^便H彈性件及第二彈性件的推頂朝外蓋 作便r持續=此使用者無須不斷地重複按壓及旋轉的動 達=且:轉轴以進,動另-被動元件.有效 引噶力且便於操作的目的。 【實施方式】 M354722 參見第一圖所示,本創作之旋壓式按鍵卡榫結構改良 包括有一外蓋(10)及一旋轉組件(2〇),其中: 外蓋(1 0)上内凹形成有一凹槽(11),該凹槽(1彳)底部朝 外蓋(10)内側突伸有一中空固定套筒(彳2),該固定套筒(12) 之自由端處間隔軸向内凹設有至少--^槽(121); 配合參見第三圖所示,旋轉組件(2〇)設於外蓋(1〇)之 凹槽(11)與固定套筒(12)之間,其包含有一旋轉套筒(21)、 一轉軸(22)、一第一壓鈕(23)、一第一彈性件(24)、一第二 φ 壓鈕(25)及一第二彈性件(26); 該旋轉套筒(21)具有一中空筒體(211)、一頭部(216) 及一密封環(218),該筒體(211)係可軸向移動地穿設於外 蓋(10)之固定套筒(12)之中而具有一内端部及一外端部, 另於該筒體(211)上成型有一卡扣部(2彳2)、至少一卡槽 (213)、至少一定位孔(214)以及一内凸環(215),該卡扣部 (212)環設位於筒體(211)之内端部,並卡掣於外蓋(1〇)之 固定套筒(12)的自由端處,該卡槽(21 3)間隔軸向内凹成型 鲁於筒體(211)之内端部,並與外蓋(1〇)之固定套筒(12)的卡 槽(121)相配合且可對應設置,該定位孔(214)間隔貫穿成 型於筒體(21 1)之壁面上,該内凸環(21 5)則環設於筒體(21,) 之内壁面上靠近外端部處,該頭部(216)成型於筒體(21 i) 之外端部上,並可抵靠於外蓋(1〇)之凹槽(11)的底部,該 頭部(216)中央貫穿有一與筒體(211)軸向相通的通孔 (217) ’該通孔(217)之斷面呈非圓形,該密封環套設 固定於筒體(211)之外壁,其具彈性且止撐於筒體川 之外壁面與外蓋(1〇)之固定套筒(12)的内壁面之間; 7 M3 54722 該轉軸(22)係可軸向移動地穿設於該旋轉套筒(21)之 筒體(211)中,而具有一内端部及一外端部,該轉軸(22)上 成型有至少一凸塊(221 ),並間隔套設固定有至少一密封環 (222)以及至少一定位環(223) ’該凸塊(221)徑向突伸於轉 轴(22)之環壁面上靠近轉轴(22)内端部處,並對應穿設於 旋轉套筒(21)之筒體(211)與外蓋(10)之固定套筒(12)的卡 槽(213)(121)之間,該密封環(222)與該定位環(223)皆具彈 性且分別止撐於轉轴(22)之環壁面與旋轉套筒(21)之筒體.M354722 V. New description: [New technical field] This creation is about the improvement of a spinning type button cassette structure, especially a spinning type cassette which can continuously rotate after pressing. [Prior Art] The spinning type button cassette is generally applied to the manual adjustment mechanism of the valve position control device, or the gas furnace, the ignition mechanism of the water heater, etc., and is selectively connected to a passive component after pressing. Can drive the quilt: component. _ #见六六和七图's 'for-priority valve position control device (4〇)' which mainly includes a seat (4)), an outer cover (42), a _ driven gear (43) and a push rod (44), a seat body (one end of the 4 inch is concavely formed with a receiving groove (411), and the other end of the seat body (41) is connected with a pipe (not shown), and the outer cover (42) is covered The driven gear (43) is disposed in the receiving groove (411) of the seat body (41), and the driven gear (43) is disposed in the receiving groove (411) of the seat body 41), and the axial center of the seat body is bored through the screw hole, the push rod The end of the state is provided with a screw m with a threaded (four) end extending through the slot (4) 1) of the super (41) and a screw hole of the driven gear (43), and the driven gear (43) is screwed with the thread. The other end of the rod (44) can be further advanced to the valve plug in the pipeline, (not shown). When the driven gear (43) rotates, the push rod (44) will drive the valve. The plug moves linearly along the axial direction of the push rod (44), thereby adjusting the width of the pipe. Among them, the manner of driving the driven gear (43) to rotate is mainly automatic electric control type and manual mechanical type. The automatic electronic control system is provided with a motor driving group (not shown) in the housing (4) of the housing (4), and the motor driving group is used to drive the driven gear (43) to rotate. 3 M354722 In the manual mechanical mode, a driving gear (50) is disposed on the side of the driven gear (43), and a connecting shaft (51) is axially protruded from the axial center of the driving gear (5〇). Further, a recess (421) is further formed on the outer cover (42), and a sleeve (422) is protruded from the bottom of the recess (421) toward the inner side of the outer cover (42), the sleeve (422) The axial direction of the connecting shaft (51) of the driving gear (5) is disposed correspondingly, and at least one of the slots (423) is axially recessed at a free end of the sleeve (422); Further, a rotating component (60) is further disposed between the groove (421) and the sleeve (422) of the outer cover (42), and the rotating component (6〇) includes a rotating shaft (61) and a pressing button (62). And an elastic member (63), the rotating shaft (61) is disposed between the sleeve (422) of the outer cover (42). At least one bump is radially protruded from the annular wall surface near the inner end portion (611) 〉, the bump (611) can be abutted against the free end of the sleeve (422) of the outer cover (42), or can be inserted between the card slots (423) of the sleeve (422), the pressure button ( 62) is disposed in the groove (421) of the outer cover (42), and is fixed to the outer end of the rotating shaft (61), the elastic member (63) is supported by the groove (421) of the outer cover (42) Between the bottom and the push button (62) φ In the natural state, the rotating shaft (61) and the pressing button (62) of the rotating component (60) are pushed by the elastic member (63) toward the outer cover ( 42) The external protrusion, and the bump (611) of the shaft (61) abuts against the free end of the sleeve (422) of the outer cover (42) or the bottom of the sleeve (423) of the sleeve (422). To prevent the rotating assembly (6〇) from being separated from the outer cover (42). Further, as shown in the eighth figure, when the pressing button (62) of the rotating assembly (60) and the rotating shaft (61) are pressed, the rotating shaft ( 61) The bump (611) is disengaged from the slot (423) of the sleeve (422) of the outer cover (42), and the inner end of the rotating shaft (61) is coupled with the connecting shaft (51) of the driving gear (50). After the connection, the rotary button (62) and the 4 M354722 rotating shaft (61) can be used to drive the main in sequence. The gear (5〇) and the driven gear (43) rotate, and further drives the push rod (44) to move linearly in the axial direction, thereby adjusting the valve position. However, in the above-mentioned prior art manual mechanical adjustment of the valve position In general, because the angle at which the hand can be rotated is limited, the push button (62) must be released about every half turn of the button (62), and the hand is rotated to the starting position, and then the rotation is repeated. Step; wherein when the user releases the push button (62), the elastic member (63) of the rotating assembly (6〇) pushes the push button (62) and the rotating shaft (61) toward the outer cover (42) Externally protruding, so that the bump (61彳) of the rotating shaft (6彳) is easily embedded in the card slot (423) of the cover (422) of the outer cover (42), so the user must constantly repeat The action of pressing and rotating can drive the push rod (44) to move, which is not only laborious but also has inconvenience in operation. [New content] In view of the inconvenience of the prior art described above, the present invention provides an improved structure of a spin-on button cassette, which is designed to solve the prior art spinning spring type button cassette structure, which must be used once before use. The action of pressing can be rotated once, which is a disadvantage of being laborious and inconvenient to operate. In order to achieve the above-mentioned creation, the purpose of the present invention is to improve the structure of a spinning type button cassette structure including: an outer cover 'with a recess formed in the upper recess' a hollow fixing sleeve protrudes from the free end of the fixing sleeve: at least one slot is axially recessed; a rotating component is disposed between the groove of the outer cover and the fixing sleeve, and is wrapped therein a red rotating sleeve, a rotating shaft, a first pressing button, a first elastic member, a 5 M3 54722 second pressing button and a second elastic member, the rotating sleeve being axially movably disposed on the outer cover The fixing sleeve is formed with at least one slot and at least one positioning hole. The slot is axially concavely formed on the inner end of the rotating sleeve, and cooperates with the slot of the fixing sleeve of the outer cover. The locating hole can be formed on the wall surface of the rotating sleeve correspondingly, and the rotating shaft can be axially moved but can not be rotatably inserted into the rotating sleeve relative to the rotating sleeve, and the rotating shaft is radially protruded At least one bump and sleeved with at least one positioning ring, the bump corresponding to Between the sleeve of the rotating sleeve and the fixing sleeve of the outer cover, the positioning ring can be clamped to the centering of the rotation (4), and the first button of the rotating button and the outer end of the rotating shaft are fixed to each other, the first elastic member Stopping between the rotating sleeve and the first center-the second elastic member is fixed between the head of the rotating sleeve and the bottom of the groove of the outer cover. The advantage of this creation is that 'When pressing the first button and the turn of the rotating component, the bump of the rotating shaft can be separated from the fixing sleeve of the rotating sleeve and the outer cover=cut, and the positioning ring is clamped to the rotating sleeve Between the positioning holes, the f and the rotating shaft are not affected by the elastic restoring force of the first elastic member: moving, so that the second pressing can be continuously rotated to drive the rotating sleeve, the first button and the rotating shaft - Rotating with the opposite outer cover; positioning to press the second pressure-and-rotating sleeve to disengage the pair of rotating sleeves, and then the first-pressure button, the outer shaft of the rotating shaft and the second elastic member and the second elastic member Push the top toward the outer cover for the r to continue = the user does not need to repeatedly press and rotate the movement = and: the shaft to enter, move the other - passive components. Effectively attracting force and easy to operate. [Embodiment] M354722 As shown in the first figure, the modified spin-on button structure of the present invention comprises an outer cover (10) and a rotating component (2〇), wherein: the outer cover (10) is concave Forming a groove (11), a bottom of the groove (1彳) protrudes toward a side of the outer cover (10) with a hollow fixing sleeve (彳2), and the free end of the fixing sleeve (12) is axially spaced The recess is provided with at least a slot (121); as shown in the third figure, the rotating component (2〇) is disposed between the recess (11) of the outer cover (1) and the fixed sleeve (12). The utility model comprises a rotating sleeve (21), a rotating shaft (22), a first pressing button (23), a first elastic member (24), a second φ pressing button (25) and a second elastic member ( 26); the rotating sleeve (21) has a hollow cylinder (211), a head (216) and a sealing ring (218), the cylinder (211) is axially movably disposed on the outer cover (10) The fixing sleeve (12) has an inner end portion and an outer end portion, and a locking portion (2彳2) and at least one card slot (213) are formed on the cylindrical body (211). ), at least one positioning hole (214) and an inner convex ring (215), the buckle portion (212) is annularly located at an inner end of the cylinder body (211), and is clamped at a free end of the fixing sleeve (12) of the outer cover (1), the card slot ( 21 3) The axial axial concave shape is formed on the inner end of the cylinder body (211), and is matched with the slot (121) of the fixing sleeve (12) of the outer cover (1〇) and can be correspondingly arranged. The positioning hole (214) is formed to be spaced apart from the wall surface of the cylindrical body (21 1), and the inner convex ring (21 5) is annularly disposed on the inner wall surface of the cylindrical body (21,) near the outer end portion. (216) formed on the outer end of the cylinder (21 i) and abutting against the bottom of the recess (11) of the outer cover (1), the head (216) having a central portion and a cylindrical body ( 211) axially communicating through hole (217) 'the through hole (217) has a non-circular cross section, and the sealing ring is sleeved and fixed to the outer wall of the cylinder (211), and has elasticity and stops at the cylinder Between the outer wall of the wall and the inner wall of the fixing sleeve (12) of the outer cover (1); 7 M3 54722 The shaft (22) is axially movably disposed through the barrel of the rotating sleeve (21) The body (211) has an inner end portion and an outer end portion, and the rotating shaft (22) Forming at least one protrusion (221), and at least one sealing ring (222) and at least one positioning ring (223) are spaced apart from each other. The protrusion (221) radially protrudes from the ring of the rotating shaft (22) The wall surface is adjacent to the inner end of the rotating shaft (22), and corresponding to the slot (213) of the fixing sleeve (12) of the rotating body (211) and the outer sleeve (10) of the rotating sleeve (21) ( Between 121), the sealing ring (222) and the positioning ring (223) are elastic and respectively support the ring wall surface of the rotating shaft (22) and the cylinder of the rotating sleeve (21)
(211)的内壁面之間,其中,該定位環(223)之環體的斷面 直徑較該密封環(222)之環體的斷面直徑為大,是以,配合 參見第四圖所示,當該轉軸(22)相對旋轉套筒(21)轴向移 動至使其凸塊(221)離開旋轉套筒(21)之筒體(211)與外蓋 (10)之固定套筒(12)的卡槽(213)(121)時,該定位環(223) 恰可相對卡掣於旋轉套筒(21)之定位孔(214)之間,又不同 材質之定位環(223)可具有不同的定位效果,# $琴鋼線材 質時,可立即且確實的卡掣於旋轉套筒(2υ之定位孔(214) 之間’而當為橡膠材質時’因橡膠需I 3~5秒的時間才會 回復到原來的尺寸,故可藉此特性作為安全開關; K 灰轉套筒(21)之頭部(216)的通孔 (217)之間而與轉軸(22)之外端部相互固接,且因該第—塵 叙⑽之形狀與旋轉套筒(21)之頭部(216)的通孔(π)相配 故可使該第-㈣(23)與轉軸(22)無法與該旋轉套筒 (21)相對轉動; 該第一彈性件(24)止撐於 (215)與該第一壓鈕(23)之間; 該旋轉套筒(21)之内 凸環 M354722 該第二壓鈕(25)固接於旋轉套筒(21)之頭部(216),其 中央貫穿有一可套設第一壓鈕(23)之穿孔(251); 該第二彈性件(26)止撐於旋轉套筒(21)之頭部(21 6)與 外蓋(1 0)之凹槽(1 1)底部之間。 進一步參見第二圖所示,為上述旋壓式按鍵卡榫結構 進一步組裝應用於閥位控制裝置之一座體(31)上,該座體 (31) 的一端内凹形成有一容槽(311),並可供前述外蓋(1〇) 蓋合於其上,座體(31)另端可與一管路(圖中未示)連接, • 另於該座體(31)之容槽(311)中設有相嚅合的一從動齒輪 (32) 與一主動齒輪(33),該主動齒輪(33)之軸心處軸向突伸 有一連接軸(331),該連接軸(331)與前述旋轉組件(2〇)之 轉轴(22)的内端部軸向對應設置,再以一推桿(3句貫穿座 體(31)之容槽(311)而穿設於該從動齒輪(32)之軸心處,且 該推桿(34)與從動齒輪(32)之間設有相嚆合的螺紋。 參見第二及四圖所示,當按壓旋轉組件(2〇)之第一壓 鈕(23),使該第一壓鈕(23)與轉轴(22)相對該旋轉套筒(21) •朝外蓋(10)内部軸向移動時,可使轉轴(22)之内端部與主 動齒輪(33)的連接軸(331)相接,並壓縮該第一彈性件 (24),此時,轉軸(22)之凸塊(221)會脫離旋轉套筒(21)與 外蓋(1〇)之固定套筒(12)的卡槽(213)(121),且因轉軸(22) 之定位環(223)卡掣於旋轉套筒(21)之定位孔(214)之間, 故》亥第壓紐(23)與轉軸(22)不會受該第一彈性件(24)之彈 性恢復力的推頂而反向移動,因此接著便可連續轉動第二 壓鈕(25),藉此帶動旋轉套筒(2彳)、第一壓鈕(23)、轉軸 以及主動齒輪(33)—同相對外蓋(1〇)轉動,並透過主動齒 9 M3 54722 輪(33)及從動齒輪(32)帶動推桿(34)軸向直線移動,以進行 閥位之調整; 進一步參見第五圖所示,在閥位調整完成後,只要將 旋轉套筒(21)及轉軸(22)的位置調整至使旋轉套筒(21)的卡 槽(213)以及轉軸(22)之凸塊(221)對應於外蓋(1〇)之固定套 筒(12)的卡槽(121),再按壓該第二壓鈕(25),同時壓縮該 第二彈性件(26),使該第二壓鈕(25)與旋轉套筒(21)相對外 盍(10)之固定套筒(12)與轉軸(22)軸向移動,便可使旋轉套 • 同(21)之定位孔(214)與轉軸(22)之定位環(223)相對脫離, 接著第一壓鈕(23)、轉軸(22)以及旋轉套筒(21)便會受第一 彈性件(24)及第二彈性件(26)之彈性恢復力的推頂朝外蓋 (1〇)的外部移動,而使該轉軸(22)與主動齒輪(33)之連接軸 (331)相對脫離,並使轉軸(22)之凸塊(221)再次穿設定位 於紅轉套筒(21)與外蓋(1〇)之固定套筒(12)的卡槽 (213)(121)之間。 如上所述之設計,使用者無須不斷地重複按壓及旋轉 鲁的動作便能持續轉動該轉軸(22)以進一步驅動該主動齒輪 (33),可有效達到省力且便於操作的目的。 【圖式簡單說明】 第一圖為本創作之立體分解圖。 第二圖為本創作於實施狀態之立體外觀圖。 第三圖為本創作於實施狀態之側視剖面圖。 β第四圖為本創作於實施狀態之側視剖®圖,其中,按 壓第:壓紐而使轉轴與主動齒輪之連接軸相接。 第五圖為本創作實施狀態之側視剖面圖,其中,按壓 M3 54722 第二壓紐而使旋轉套筒之定位孔與轉軸之定位環相對脫 離。 第六圖為現有技術之立體外觀圖。 第七圖為現有技術之側視部份元件剖面圖。 第八圖為現有技術於實施狀態之側視部份元件剖面 【主要元件符號說明】 (1〇)外蓋 (12)固定套筒 (20)旋轉組件 (211)筒體 (213)卡槽 (215)内凸環 (217)通孔 (22)轉軸 (222)密封環 (2 3)第一壓紐 (25) 第二壓紐 (26) 第二彈性件 (311)容槽 (33) 主動齒輪 (34) 推桿 (41) 座體 (42) 外蓋 (422)套筒 (11)凹槽 (121)卡槽 (21)旋轉套筒 (212)卡扣部 (214)定位孔 (216)頭部 (218)密封環 (221)凸塊 (223)定位環 (24)第一彈性件 (251)穿孔 (31) 座體 (32) 從動齒輪 (331)連接軸 (40)閥位控制裝置 (41 1)容槽 (421)凹槽 (423)卡槽 11 M354722 (43)從動齒輪 (50)主動齒輪 (60)旋轉組件 (611)凸塊 (63)彈性件 (44)推桿 (51)連接軸 (61)轉軸 (6 2)壓鈕Between the inner wall surfaces of (211), wherein the diameter of the ring body of the positioning ring (223) is larger than the diameter of the cross-section of the ring body of the sealing ring (222), so that the matching is as shown in the fourth figure. When the rotating shaft (22) is axially moved relative to the rotating sleeve (21) to a fixed sleeve of the cylindrical body (211) and the outer cover (10) of the rotating sleeve (21) 12) When the card slot (213) (121), the positioning ring (223) can be relatively locked between the positioning holes (214) of the rotating sleeve (21), and the positioning ring (223) of different materials can be With different positioning effects, when the material of the steel wire is used, it can be immediately and surely stuck between the rotating sleeve (between the positioning holes (214) of the 2υ' and when it is made of rubber], the rubber needs I 3~5 The second time will return to the original size, so this feature can be used as a safety switch; K between the through hole (217) of the head (216) of the gray rotating sleeve (21) and the rotating shaft (22) The ends are fixed to each other, and the shape of the first dust (10) matches the through hole (π) of the head (216) of the rotating sleeve (21), so that the (-)th (23) and the rotating shaft (22) can be made. ) can not be with the rotating sleeve (21) relative rotation; the first elastic member (24) is supported between (215) and the first pressing button (23); the inner ring of the rotating sleeve (21) is convex ring M354722 (the second pressing button ( 25) fixed to the head (216) of the rotating sleeve (21), the center of which has a through hole (251) for arranging the first pressing button (23); the second elastic member (26) is supported by the rotation Between the head (21 6) of the sleeve (21) and the bottom of the groove (1 1) of the outer cover (10). Further referring to the second figure, the assembly of the above-mentioned spinning type button cassette structure is further applied. a seat (31) of the valve position control device, a recess (311) is recessed in one end of the seat body (31), and the outer cover (1〇) is covered thereon, the seat body ( 31) The other end can be connected with a pipe (not shown), and the other gear (311) of the seat body (31) is provided with a driven gear (32) and a driving gear. (33) a shaft (331) is axially protruded from the shaft center of the driving gear (33), and the connecting shaft (331) and the inner end shaft of the rotating shaft (22) of the rotating component (2) are axially extended. Set to the corresponding, and then put a putter (3 sentences through the seat The pocket (311) of the body (31) is disposed at the axial center of the driven gear (32), and the push rod (34) and the driven gear (32) are provided with matching threads. Referring to Figures 2 and 4, when the first button (23) of the rotating assembly (2〇) is pressed, the first button (23) and the rotating shaft (22) are opposed to the rotating sleeve (21). When the inner cover (10) moves axially inside, the inner end of the rotating shaft (22) can be connected with the connecting shaft (331) of the driving gear (33), and the first elastic member (24) is compressed. When the protrusion (221) of the rotating shaft (22) is separated from the locking groove (213) (121) of the rotating sleeve (21) and the fixing sleeve (12) of the outer cover (1), and because of the rotating shaft (22) The positioning ring (223) is clamped between the positioning holes (214) of the rotating sleeve (21), so that the first pressing button (23) and the rotating shaft (22) are not subjected to the first elastic member (24). The elastic restoring force is pushed in the reverse direction, so that the second push button (25) can be continuously rotated, thereby driving the rotating sleeve (2彳), the first pressing button (23), the rotating shaft and the driving gear (33). ) - Rotate with the opposite cover (1〇) and pass the drive tooth 9 M3 54722 The wheel (33) and the driven gear (32) drive the push rod (34) to move linearly in the axial direction to adjust the valve position; further see the fifth figure, after the valve position adjustment is completed, as long as the rotating sleeve ( 21) and the position of the rotating shaft (22) is adjusted so that the locking groove (213) of the rotating sleeve (21) and the projection (221) of the rotating shaft (22) correspond to the fixing sleeve (12) of the outer cover (1) The card slot (121), and then pressing the second button (25), while compressing the second elastic member (26), so that the second button (25) and the rotating sleeve (21) are opposite to the outer casing (10) The fixed sleeve (12) and the rotating shaft (22) move axially, so that the positioning hole (214) of the rotating sleeve (21) and the positioning ring (223) of the rotating shaft (22) are relatively separated, and then the first The push button (23), the rotating shaft (22) and the rotating sleeve (21) are pushed by the elastic restoring force of the first elastic member (24) and the second elastic member (26) toward the outer cover (1〇). Externally moving, the shaft (22) is relatively disengaged from the connecting shaft (331) of the driving gear (33), and the projection (221) of the rotating shaft (22) is again set to be located in the red rotating sleeve (21) and outside. Fixing of cover (1〇) Between the cylinder slot (12) (213) (121). According to the design as described above, the user can continuously rotate the rotating shaft (22) without further pressing and rotating the rotating shaft to further drive the driving gear (33), thereby effectively achieving labor saving and easy operation. [Simple description of the diagram] The first picture is an exploded view of the creation. The second figure is a three-dimensional appearance of the creation in the implementation state. The third figure is a side cross-sectional view of the creation in the state of implementation. The fourth figure of β is a side view of the creation in the state of implementation, in which the pressing shaft: the pressure button is connected to the connecting shaft of the driving gear. The fifth figure is a side cross-sectional view of the state in which the creation is performed, in which the second pressing button of the M3 54722 is pressed to relatively disengage the positioning hole of the rotating sleeve from the positioning ring of the rotating shaft. The sixth figure is a perspective view of the prior art. The seventh figure is a cross-sectional view of a side view component of the prior art. The eighth figure shows the cross-section of some components in the state of the prior art. [Main component symbol description] (1〇) outer cover (12) fixed sleeve (20) rotating assembly (211) cylinder (213) card slot ( 215) inner convex ring (217) through hole (22) rotating shaft (222) sealing ring (2 3) first pressing button (25) second pressing button (26) second elastic member (311) receiving groove (33) active Gear (34) Pusher (41) Seat (42) Cover (422) Sleeve (11) Groove (121) Slot (21) Rotating Sleeve (212) Snap (214) Locating Hole (216 Head (218) seal ring (221) bump (223) positioning ring (24) first elastic member (251) perforation (31) seat body (32) driven gear (331) connecting shaft (40) valve position Control device (41 1) pocket (421) groove (423) card slot 11 M354722 (43) driven gear (50) drive gear (60) rotating assembly (611) bump (63) elastic member (44) push Rod (51) connecting shaft (61) shaft (6 2) button
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