TWM572929U - Self-swing structure - Google Patents

Abstract

本創作係提供一種自體擺動結構，其結構設計上，主要於機台座上方之兩端皆設有一磁件工具，並於二磁件工具中央設有一絕緣擺桿，該絕緣擺桿相對於磁件工具之位置處則設有非絕緣金屬，而所述磁件工具內部設有磁鐵，並透過迴轉盤使其得以產生迴轉定位之動作，而絕緣擺桿上則與兩側機台架設有拉桿與回位桿結構，該拉桿係可連動兩側之扇形齒輪，而扇形齒輪則與迴轉盤之小齒輪連動，又所述回位桿兩側則設有回位彈簧，又該磁件工具上端接裝設有一卡位件及一定位件；是以當絕緣擺桿偏向一側時，其拉桿將帶動扇形齒輪及小齒輪轉動，而使右側迴轉盤上之彈簧開始緊繃，此時右側仍維持具磁吸之狀態且持續吸引絕緣擺桿上之非絕緣金屬靠近，但當絕緣擺桿壓抵其卡位件時，其卡位件將順勢撥動定位件翹起，如此則將釋放右側之迴轉盤使之旋動，並使右側磁件工具內之磁鐵變為無磁吸之狀態，而左側磁件工具則因扇形齒輪之帶動，而使其內部磁鐵轉為具磁吸狀態，因此絕緣擺桿之非絕緣金屬則將被左側吸引，且回位桿上之回位彈簧亦將因擠壓之釋放而輔助推動絕緣擺桿向左側擺動，而當絕緣擺桿擺至左側時，原本的右側則將重複預備迴轉與磁吸之動作，據此循環則可產生循環式的自發動力者。 The present invention provides a self-oscillating structure, which is designed to have a magnetic tool at both ends of the machine base, and an insulating pendulum in the center of the two magnetic tool, the insulating pendulum is opposite to the magnetic The position of the tool is provided with a non-insulating metal, and the magnet tool is internally provided with a magnet, and the rotary disk is used to generate a rotary positioning action, and the insulating pendulum is provided with a tie rod on both sides of the machine stand. And the return rod structure, the pull rod can interlock the sector gears on both sides, and the sector gear is interlocked with the pinion gear of the rotary disc, and the return rod is provided with a return spring on both sides of the return rod, and the upper end of the magnetic tool The clamping device is provided with a clamping member and a positioning member; when the insulating pendulum is biased to one side, the pulling rod will drive the sector gear and the pinion to rotate, and the spring on the right rotating plate begins to be tight, and the right side is still Maintaining the magnetic attraction state and continuously attracting the non-insulated metal on the insulating pendulum, but when the insulating pendulum is pressed against the clamping member, the clamping member will be tilted up by the positioning member, so that the right side will be released. Rotary disk Move and make the magnet in the right magnetic tool become non-magnetic, while the left magnetic tool is driven by the sector gear to make its internal magnet into a magnetic state, so the insulating pendulum is not insulated. The metal will be attracted to the left side, and the return spring on the return rod will also assist the pushing of the insulating pendulum to the left side due to the release of the squeeze. When the insulating pendulum swings to the left, the original right side will be repeatedly prepared. The action of the rotation and the magnetism, according to which the cycle can generate a cyclical spontaneous power.

Description

自體擺動結構 Self-oscillating structure

本新型係有關於一種自體擺動結構，特別是指利用裝置中兩側磁件工具輪流替換的磁吸狀態，而吸引中央之擺桿產生循環之擺動，據以達到自體提供動力之功效者。 The present invention relates to a self-oscillating structure, in particular to a magnetic state in which the magnetic tools of both sides of the device are alternately replaced, and the swinging rod of the central portion is attracted to generate a cyclic swing, thereby achieving the effect of self-power supply. .

現今對於能源之取得可謂相當便利，但過度的使用及開發已嚴重危害我們賴以為生之環境，是以若可透過合理的動力機械結構，而產生循環式的自發動力，將可減少更多能源消耗之機會，實應設法加以鑽研者。 Today's access to energy is quite convenient, but excessive use and development have seriously jeopardized the environment we are relying on. If we can generate circular energy through a reasonable dynamic mechanical structure, we will reduce more energy. The opportunity to consume should be managed by the researcher.

鑑於上述之狀態，創作人本著研發之精神，而設計出本新型，其主要目的在於藉由自體擺動結構中兩側反覆吸引絕緣擺桿之磁吸工具，並搭配輔助推擠絕緣擺桿之結構，而帶動裝置循環自體擺動，據以產生自體提供動力之功效者。 In view of the above state, the creator designed the novel in the spirit of research and development, and its main purpose is to attract the insulating pendulum by repeatedly attracting the magnetic penetrating tool of the insulating pendulum in both sides of the self-oscillating structure. The structure, and the driving device circulates spontaneously, thereby generating the effect of self-powering.

本新型之另一目的在於，當賦予自體擺動結構自動擺動控制時，可將其運用於扇風之需求者。 Another object of the present invention is to apply the self-oscillating structure to the demand of the fan when it is given automatic swing control.

(10)‧‧‧自體擺動裝置 (10)‧‧‧Self-oscillation device

(11)‧‧‧機台座 (11)‧‧‧ machine pedestal

(12)‧‧‧機台架 (12)‧‧‧ machine stand

(13)‧‧‧擺桿架 (13)‧‧‧ pendulum frame

(14)‧‧‧絕緣件 (14)‧‧‧Insulation

(15)‧‧‧磁件工具 (15)‧‧‧Magnetic tools

(20)‧‧‧磁件外殼 (20)‧‧‧Magnetic case

(21)‧‧‧容置穿孔 (21) ‧‧‧ accommodating perforations

(22)‧‧‧絕緣件 (22)‧‧‧Insulation

(23)‧‧‧定位點 (23) ‧ ‧ anchor points

(24)‧‧‧磁鐵 (24)‧‧‧ Magnet

(25)‧‧‧凹槽 (25) ‧‧‧ Groove

(26)‧‧‧迴轉盤蓋 (26)‧‧‧Rotary disc cover

(30)‧‧‧迴轉盤 (30)‧‧‧Rotary disk

(31)‧‧‧卡抵凸塊 (31) ‧‧‧ card offset bumps

(32)‧‧‧小齒輪 (32)‧‧‧Spindles

(33)‧‧‧卡抵溝槽 (33) ‧‧‧ card to groove

(34)‧‧‧彈性件 (34) ‧‧‧Flexible parts

(35)‧‧‧卡位件 (35)‧‧‧Cart parts

(36)‧‧‧定位件 (36)‧‧‧ Positioning parts

(361)‧‧‧限位桿 (361)‧‧‧Limited rod

(37)‧‧‧內縮部 (37) ‧ ‧ internal contraction

(40)‧‧‧扇型齒輪 (40) ‧‧‧fan gears

(401)‧‧‧軸柱 (401)‧‧‧ shaft column

(41)‧‧‧拉桿 (41)‧‧‧ lever

(411)‧‧‧拉桿軸心 (411)‧‧‧ Rod shaft

(412)‧‧‧長型槽 (412)‧‧‧Long trough

(42)‧‧‧回位桿 (42)‧‧‧Return pole

(421)‧‧‧回位桿軸心 (421)‧‧‧Return rod axis

(422)‧‧‧固定柱 (422) ‧ ‧ fixed column

(423)‧‧‧長型槽 (423)‧‧‧Long trough

(43)‧‧‧回位彈簧 (43)‧‧‧Return spring

(50)‧‧‧絕緣擺桿 (50)‧‧‧Insulated pendulum

(51)‧‧‧非絕緣金屬 (51)‧‧‧Uninsulated metal

第1圖：裝置結構狀態示意圖。 Figure 1: Schematic diagram of the structure of the device.

第2圖：磁件工具結構示意圖1。 Figure 2: Schematic diagram of the structure of the magnetic tool.

第3圖：磁件工具結構示意圖2。 Figure 3: Schematic diagram of the magnetic tool structure 2.

第4圖：迴轉盤結構示意圖。 Figure 4: Schematic diagram of the structure of the rotary disk.

第5圖：磁件外殼結構示意圖1。 Figure 5: Schematic diagram of the structure of the magnetic housing.

第6圖：磁件外殼結構示意圖2。 Figure 6: Schematic diagram of the structure of the magnetic housing.

第7圖：磁件結構示意圖。 Figure 7: Schematic diagram of the magnetic structure.

第8圖：磁件工具之具磁吸狀態示意圖。 Figure 8: Schematic diagram of the magnetic state of the magnetic tool.

第9圖：磁件工具之無磁吸狀態示意圖。 Figure 9: Schematic diagram of the non-magnetic state of the magnetic tool.

第10圖：自體擺動裝置動作示意圖1。 Figure 10: Schematic diagram of the operation of the self-oscillating device.

第11圖：自體擺動裝置動作示意圖2。 Figure 11: Schematic diagram of the operation of the self-oscillating device 2.

第12圖：自體擺動裝置動作示意圖3。 Figure 12: Schematic diagram of the operation of the self-oscillating device.

為使本創作之結構特徵與功效達成等，有更具體的了解，謹配合圖式詳述如后：首先，請參閱第1~7圖所示，其結構設計上，其自體百動裝置(10)主要有一機台座(11)，其機台座(11)中央位置處設有一擺桿架(13)，而擺桿架(13)兩側則皆設有一機台架(12)，又二機台架(12)上端則皆設有一磁件工具(15)，磁件工具(15)與機台架(12)間係設置有絕緣件(14)；所述磁件工具(15)主要有一磁件外殼(20)，磁件外殼(20)中央有一容置穿孔(21)，並於水平位置之兩側皆設有絕緣件(22)，且靠外端處之絕緣件(22)則設有一定位點(23)，而該容置穿孔(21)內設有一磁鐵(24)，磁鐵 (24)於其前後端之正負極交接處皆挖設有一凹槽(25)；再者該磁件外殼(20)之前後端皆裝設有一迴轉盤(30)，並於迴轉盤(30)之外側再蓋設有一迴轉盤蓋(26)，而該迴轉盤(30)預設有一內縮環部(37)，又迴轉盤(30)內側端有一可對應卡抵磁鐵(24)凹槽(25)之卡抵凸塊(31)，而外設則有一小齒輪(32)，小齒輪(32)之外側則凸伸有一卡抵溝槽(33)結構，而迴轉盤蓋(26)則與磁件外殼(20)鎖接，且該卡抵溝槽(33)內卡設有一彈性件(34)，其彈性件(34)之另端則卡抵於迴轉盤蓋(26)上；又，該小齒輪(32)下端與一扇型齒輪(40)齒接，而扇型齒輪(40)之軸柱(401)則設於機台架(12)上，而兩磁件工具(15)中央於擺桿架(13)上係設有一絕緣擺桿(50)，並於絕緣擺桿(50)上段部相對於磁件工具(15)之兩側設有非絕緣金屬(51)，而絕緣擺桿(50)之中段有一拉桿軸心(411)，其拉桿軸心(411)兩側皆延伸出一拉桿(41)，並於最外側開設有長形槽(412)供扇型齒輪(40)軸柱(401)穿設，另外於拉桿軸心(411)下又設有一回位桿軸心(421)，回位桿軸心(421)上設有一回位桿(42)，而回位桿(42)兩側則分別設有回位彈簧(43)與長形槽(423)，該長形槽(423)係供一設置於扇型齒輪(40)軸柱(401)下方之固定柱(422)穿設；另外，於磁件外殼(20)之上端皆裝設有一卡位件(35)及一定位件(36)，該卡位件(35)係靠內側近絕緣擺桿(50)裝設，而卡位件(35)與定位件(36)皆為翹板裝置，其中卡位件(35)內側若遭擠壓向下，其外側翹起將一併撥動定位件(36)翹起，而定位件(36) 有一向下之限位桿(361)得以卡抵於迴轉盤(30)之內縮環部(37)內。 In order to achieve the structural characteristics and efficacy of this creation, there is a more specific understanding, please follow the detailed description of the following: First, please refer to the figure 1~7, its structural design, its self-propelled device (10) There is mainly a machine base (11), a swing frame (13) is arranged at the center of the machine base (11), and a machine frame (12) is arranged on both sides of the swing frame (13). The upper end of the second machine frame (12) is provided with a magnetic component tool (15), and the magnetic component tool (15) and the machine frame (12) are provided with an insulating member (14); the magnetic component tool (15) There is mainly a magnetic component casing (20). The magnetic component casing (20) has a receiving hole (21) in the center, and is provided with an insulating member (22) on both sides of the horizontal position, and the insulating member at the outer end (22) a positioning point (23) is provided, and a magnet (24) is provided in the receiving through hole (21). (24) A groove (25) is dug at the intersection of the positive and negative ends of the front and rear ends; further, a rotating disk (30) is mounted on the front end of the magnetic component casing (20), and is mounted on the rotating disk (30). The outer side is further provided with a revolving disc cover (26), and the revolving disc (30) is preset with a retracting ring portion (37), and the inner end of the rotating disc (30) has a corresponding concave card (24) concave. The groove of the groove (25) abuts the projection (31), and the outer peripheral has a pinion (32), and the outer side of the pinion (32) protrudes with a card abutting groove (33) structure, and the rotary disk cover (26) ) is locked with the magnetic component housing (20), and an elastic member (34) is stuck in the card abutting groove (33), and the other end of the elastic member (34) is locked against the rotary disk cover (26). Further, the lower end of the pinion gear (32) is toothed to a sector gear (40), and the shaft post (401) of the sector gear (40) is disposed on the machine frame (12), and the two magnetic parts An insulating pendulum rod (50) is disposed on the swing frame (13) at the center of the tool (15), and a non-insulating metal is disposed on the upper portion of the insulating pendulum (50) with respect to the sides of the magnetic tool (15) ( 51), while the middle portion of the insulating pendulum (50) has a tie rod axis (411), and a pull rod (41) extends from both sides of the rod shaft (411), and The outer side is provided with an elongated groove (412) for the fan-shaped gear (40) shaft column (401) to be pierced, and a return rod axial center (421) is further disposed under the rod axial center (411), and the return rod axial center is provided. (421) is provided with a return rod (42), and both sides of the return rod (42) are respectively provided with a return spring (43) and an elongated groove (423), and the elongated groove (423) is provided for one A fixing post (422) disposed under the shaft pin (401) of the sector gear (40) is disposed; and a latching member (35) and a positioning member (36) are mounted on the upper end of the magnetic housing (20). The latching member (35) is mounted on the inner near insulating pendulum (50), and the latching member (35) and the positioning member (36) are both rocker devices, wherein the inner side of the latching member (35) Squeeze downward, the outer side of the lift will lift the positioning member (36) together, and the positioning member (36) A downward limit rod (361) is snapped into the inner ring portion (37) of the turntable (30).

次，請參閱第8、9圖所示，磁件工具(15)內部之磁鐵(24)正負極若與側邊之絕緣件(22)呈水平狀態時，其磁件工具(15)之側邊將產生磁吸效果，但若磁鐵(24)正負極若與側邊之絕緣件(22)呈垂直設置時，其磁件工具(15)之側邊則為無磁吸狀態。 Then, as shown in Figures 8 and 9, the magnet (24) inside the magnetic tool (15) is on the side of the magnetic tool (15) if the positive and negative poles are horizontal with the side insulation (22). The magnetic effect will be generated on the side, but if the positive and negative poles of the magnet (24) are perpendicular to the insulating member (22) on the side, the side of the magnetic tool (15) is non-magnetic.

再者，請同時參閱第1、10、11、12圖所示，當絕緣擺桿(50)偏向右側時，其拉桿(41)將帶動扇形齒輪(40)及小齒輪(32)轉動，但由於右側迴轉盤(30)之內縮環部(37)仍受其上方定位件(36)之限位桿(361)所卡抵，故在迴轉盤(30)無法旋動之狀態下，右側磁件工具(15)係保持磁吸狀態，因而持續吸引絕緣擺桿(50)上之非絕緣金屬(51)靠近，且右側迴轉盤(30)上之彈性件(34)亦因小齒輪(32)之轉動而持續緊繃，但當絕緣擺桿(50)壓抵至右端的卡位件(35)時，其卡位件(35)將順勢撥動定位件(36)翹起，如此限位桿(361)則將釋放右側之迴轉盤(30)使之旋動，直至內縮環部(37)卡抵至定位點(23)而停止，此時右側磁件工具(15)內之磁鐵(24)則將變為無磁吸之狀態，而左側磁件工具(20)則因其下方扇形齒輪(40)之帶動迴轉盤(30)，而使其內部磁鐵(24)轉變為具磁吸之狀態，因此絕緣擺桿(50)之非絕緣金屬(51)則將反向被左側磁件工具(15)吸引，且右側回位桿(42)上之回位彈簧(43)亦將因擠壓之釋放而輔助推動絕緣擺桿(50)向左側擺動，而當絕緣擺桿(50)擺至左側時，其左、右側的 磁件工具(15)則將重複迴轉盤(30)之迴轉與轉換磁吸動作，據此循環則可產生絕緣擺桿(50)的自發動力擺動者。 Furthermore, please refer to the figures 1, 10, 11, and 12 at the same time. When the insulating pendulum (50) is biased to the right side, the tie rod (41) will drive the sector gear (40) and the pinion (32) to rotate, but Since the inner ring portion (37) of the right turntable (30) is still caught by the limit lever (361) of the upper positioning member (36), the right side of the turntable (30) cannot be rotated, the right side The magnetic tool (15) maintains the magnetic state, thereby continuously attracting the non-insulating metal (51) on the insulating pendulum (50), and the elastic member (34) on the right rotating disk (30) is also due to the pinion ( 32) The rotation is continued and tight, but when the insulating pendulum (50) is pressed against the right end of the clamping member (35), the clamping member (35) will tilt the positioning member (36), so The limit lever (361) will release the right turntable (30) to make it rotate until the inner ring portion (37) snaps to the positioning point (23) and stops. At this time, the right magnetic tool (15) The magnet (24) will become non-magnetic, and the left magnetic tool (20) will turn the internal magnet (24) into (b) by the lower sector gear (40). With magnetic attraction, the insulating pendulum (50) is not insulated metal (51) Then the reverse is attracted by the left magnetic tool (15), and the return spring (43) on the right return lever (42) will also assist the push of the insulating swing (50) to the left side due to the release of the squeeze. When the insulating pendulum (50) is placed to the left, its left and right sides The magnetic tool (15) will repeat the rotation and switching magnetic action of the rotary disk (30), according to which the spontaneous power swing of the insulating pendulum (50) can be generated.

而在此僅敘述現有的較佳範例，並簡單地藉由預期能執行現有新型的最佳模式之圖示來加以說明，而其中數個細項也可以用許多明顯不同的觀點來加以改良，故上述之圖示及敘述是作為本質上的說明，而非限制。 However, only the prior preferred examples are described herein, and are simply illustrated by the expectation that the best mode of the prior art can be implemented, and several of the details can be modified with a number of distinct points. Therefore, the above illustrations and descriptions are illustrative and not limiting.

Claims (1)

一種自體擺動結構，主要有一機台座，其機台座中央位置處設有一擺桿架，而擺桿架兩側則皆設有一機台架，又二機台架上端則皆設有一磁件工具，磁件工具與機台架間係設置有絕緣件；磁件工具主要有一磁件外殼，磁件外殼中央有一容置穿孔，並於水平位置之兩側皆設有絕緣件，且靠外端處之絕緣件則設有一定位點，而該容置穿孔內設有一磁鐵，磁鐵於其前後端之正負極交接處皆挖設有一凹槽；該磁件外殼之前後端皆裝設有一迴轉盤，並於迴轉盤之外側再蓋設有一迴轉盤蓋，而該迴轉盤預設有一內縮環部，又迴轉盤內側端有一可對應卡抵磁鐵凹槽之卡抵凸塊，而外側則有一小齒輪，小齒輪之外側則凸伸有一卡抵溝槽結構，而磁件外殼與迴轉盤外則蓋覆有一迴轉盤蓋，迴轉盤蓋可供迴轉盤之小齒輪凸伸，迴轉盤蓋並與磁件外殼鎖接，又卡抵溝槽內卡設有一彈性件，其彈性件之另端則卡抵於迴轉盤蓋上；該小齒輪下端與一扇型齒輪齒接，而扇型齒輪之軸柱則設於機台架上，而兩磁件工具中央於擺桿架上係設有一絕緣擺桿，並於絕緣擺桿上段部相對於磁件工具之兩側設有非絕緣金屬，而絕緣擺桿之中段有一拉桿軸心，其拉桿軸心兩側皆延伸出一拉桿，並於最外側開設有長形槽供扇型齒輪軸柱穿設，另外於拉桿軸心下又設有一回位桿軸心，回位桿軸心上設有一回位桿，而回位桿兩側則分別設有回位彈簧與長形槽，該長形槽係供一設置於扇型齒輪軸柱下方之固定柱穿設；該磁件外殼之上端皆裝設有一卡位件及一定位件，該卡位件係靠內側近絕緣擺桿裝設，而卡位件與定位件為翹板裝置，其中卡位件內側若遭擠 壓向下，其外側翹起將一併撥動定位件翹起，而定位件係有一向下之限位桿得以卡抵於迴轉盤之內縮環部內；當絕緣擺桿偏向一側時，其拉桿將帶動扇形齒輪及小齒輪轉動，但由於該側迴轉盤之內縮環部仍受其上方定位件之限位桿所卡抵，故在迴轉盤無法旋動之狀態下，該側磁件工具係保持磁吸狀態，因而持續吸引絕緣擺桿上之非絕緣金屬靠近，且該側迴轉盤上之彈性件亦因小齒輪之轉動而持續緊繃；當絕緣擺桿壓抵至該端的卡位件時，其卡位件將順勢撥動定位件翹起，如此限位桿則將釋放該側之迴轉盤使之旋動，直至內縮環部卡抵至定位點而停止，此時該側磁件工具內之磁鐵則將變為無磁吸之狀態，而另一側磁件工具則因其下方扇形齒輪之帶動迴轉盤，而使其內部磁鐵轉變為具磁吸之狀態，因此絕緣擺桿之非絕緣金屬則將反向被另一側磁件工具吸引，且原本該側回位桿上之回位彈簧亦將因擠壓之釋放而輔助推動絕緣擺桿向另一側擺動；其特徵在於，利用裝置中兩側磁件工具輪流替換的磁吸狀態，而吸引中央之絕緣擺桿產生循環之擺動，據以達到自體動力之裝置者。 The utility model relates to a self-oscillating structure, which mainly has a machine base, a swing frame is arranged at a central position of the machine base, and a machine frame is arranged on both sides of the swing frame, and a magnetic tool is arranged on the upper end of the second machine frame. The magnetic component tool and the machine frame are provided with an insulating member; the magnetic component tool mainly has a magnetic component outer casing, the magnetic component outer casing has a receiving perforation in the center, and the insulating member is disposed on both sides of the horizontal position, and the outer end is provided The insulating member is provided with a positioning point, and a magnet is disposed in the receiving through hole, and a magnet is dug at the intersection of the positive and negative ends of the front and rear ends of the magnet; the front end of the magnetic member housing is provided with a rotating disk And a rotating disc cover is further disposed on the outer side of the rotating disc, and the rotating disc is preset with a retracting ring portion, and the inner end of the rotating disc has a card abutting block corresponding to the card to the magnet groove, and the outer side has a The pinion gear and the outer side of the pinion protrude from a groove-receiving structure, and the outer casing of the magnetic member and the outer surface of the rotary disk are covered with a rotary disk cover, and the rotary disk cover can protrude from the small gear of the rotary disk, and the rotary disk cover is Locked with the magnetic housing, and snapped into the groove An elastic member is disposed, and the other end of the elastic member is clamped to the rotary disc cover; the lower end of the pinion gear is connected with a fan gear, and the shaft post of the fan gear is disposed on the machine frame, and the two magnetic bodies are The center of the tool is provided with an insulating pendulum on the swing frame, and the upper part of the insulating pendulum is provided with non-insulated metal on both sides of the tool of the magnetic piece, and the middle part of the insulating pendulum has a tie rod axis, and the rod axis thereof A pull rod is extended on both sides of the heart, and an elongated slot is provided on the outermost side for the fan-shaped gear shaft column to be inserted, and a return rod axis is further disposed under the shaft of the pull rod, and a shaft of the return rod is provided on the shaft a return rod, and a return spring and an elongated slot are respectively arranged on both sides of the return rod, and the elongated slot is provided for a fixed column disposed under the shaft of the sector gear shaft; The device is provided with a latching member and a positioning member, and the latching member is mounted on the inner side of the insulating pendulum rod, and the latching member and the positioning member are rocker devices, wherein the inner side of the latching member is squeezed Pressing downward, the outer side of the lifting will lift the positioning member together, and the positioning member has a downward limiting rod to be engaged in the inner ring portion of the rotating disk; when the insulating pendulum is biased to one side, The pull rod will drive the sector gear and the pinion to rotate, but since the inner ring portion of the side turn disk is still caught by the limit rod of the upper positioning member, the side magnet is in a state where the rotary disk cannot be rotated. The tool is kept in a magnetic state, so that the non-insulating metal on the insulating pendulum is continuously attracted, and the elastic member on the side turn plate is continuously tightened by the rotation of the pinion; when the insulating pendulum is pressed against the end When the clamping member is in use, the clamping member will be tilted up by the sliding position positioning member, so that the limiting lever will release the rotating disc of the side to make it rotate until the retracting ring portion is stuck to the positioning point and stops. The magnet in the side magnetic tool will become non-magnetic, and the other magnetic tool will turn the inner magnet into a magnetic state due to the lower sector gear. The non-insulated metal of the insulating pendulum will be reversed by the other side of the magnetic tool And the return spring on the side return rod will also assist the push of the insulating swing rod to swing to the other side due to the release of the squeeze; the feature is that the magnetic pick-up is replaced by the magnetic tools on both sides of the device. The state, while attracting the central insulating pendulum to produce a cyclic swing, according to the device to achieve self-power.