TWI706080B - Self-oscillating structure - Google Patents

Abstract

The present invention provides a self-oscillating structure. In terms of structural design, a magnetic tool is provided at both ends of the machine base, and an insulating swing rod is arranged in the center of the two magnetic tools. The insulating swing rod is opposite to the magnetic Non-insulated metal is provided at the position of the tool, and the magnetic tool is equipped with a magnet inside, which can be rotated and positioned through the rotary disk, and the insulated swing rod is equipped with pull rods on both sides of the machine platform. With the return rod structure, the pull rod system can link the sector gears on both sides, and the sector gears are linked with the pinion gear of the turntable. There are return springs on both sides of the return rod, and the upper end of the magnetic tool The adapter is equipped with a retaining piece and a positioning piece; therefore, when the insulating swing rod is deflected to one side, its pull rod will drive the sector gear and pinion to rotate, so that the spring on the right turntable begins to tighten, and the right side is still Maintain the magnetic state and continue to attract the non-insulated metal on the insulating pendulum rod to approach, but when the insulating pendulum rod is pressed against its clamping part, its clamping part will move the positioning part upward, so that the right side will be released The rotating disc makes it rotate, and the magnet in the right magnetic tool becomes non-magnetic, while the left magnetic tool is driven by the sector gear to turn the internal magnet into a magnetic state, so The non-insulated metal of the insulated swing rod will be attracted to the left side, and the return spring on the return rod will also assist in pushing the insulated swing rod to swing to the left due to the release of the squeeze. When the insulated swing rod swings to the left, the original On the right side, the preparatory rotation and magnetic attraction will be repeated. According to this cycle, a circulating spontaneous power can be generated.

Description

Self-oscillating structure

The present invention relates to a self-oscillating structure, in particular to the magnetic attraction state in which the magnetic tools on both sides of the device are alternately replaced, and the central pendulum rod is attracted to produce cyclical swing, thereby achieving the effect of self-providing power .

Nowadays, it is quite convenient to obtain energy, but excessive use and development have seriously endangered the environment on which we depend for our livelihood. Therefore, if we can generate circular spontaneous power through a reasonable power mechanism structure, more energy can be reduced. The opportunity of consumption should really be studied.

In view of the above situation, the inventor designed the present invention in the spirit of research and development. The main purpose of the invention is to repeatedly attract the magnetic suction tool of the insulating pendulum through the two sides of the self-oscillating structure, and assist in pushing the insulating pendulum. The structure that drives the device to circulate and oscillate by itself, so as to produce the effect of self-powering.

Another object of the present invention is that when the self-oscillating structure is given automatic swing control, it can be applied to those who need fan wind.

(10)‧‧‧Self-oscillating device

(11)‧‧‧Machine stand

(12)‧‧‧Machine stand

(13)‧‧‧Swing rod holder

(14)‧‧‧Insulation

(15)‧‧‧Magnetic tool

(20)‧‧‧Magnetic shell

(21)‧‧‧Accommodation perforation

(22)‧‧‧Insulation

(23)‧‧‧Locating point

(24)‧‧‧Magnet

(25)‧‧‧Groove

(26)‧‧‧Turntable cover

(30)‧‧‧Turntable

(31)‧‧‧Card to bump

(32)‧‧‧Pinion gear

(33)‧‧‧Catch the groove

(34)‧‧‧Elastic parts

(35)‧‧‧Card slot

(36)‧‧‧Locating piece

(361)‧‧‧Limit Rod

(37)‧‧‧Indentation

(40)‧‧‧Sector gear

(401)‧‧‧Axle column

(41)‧‧‧Tie rod

(411)‧‧‧Tie rod axis

(412)‧‧‧Long groove

(42)‧‧‧Return lever

(421)‧‧‧Return rod axis

(422)‧‧‧Fixed column

(423)‧‧‧Long groove

(43)‧‧‧Return spring

(50)‧‧‧Insulation swing rod

(51)‧‧‧Non-insulated metal

Figure 1: Schematic diagram of the device structure state.

Figure 2: Schematic diagram of magnetic tool structure 1.

Figure 3: Schematic diagram of the magnetic tool structure 2.

Figure 4: Schematic diagram of the structure of the turntable.

Figure 5: Schematic diagram of the magnetic housing structure 1.

Figure 6: Schematic diagram of the magnetic housing structure 2.

Figure 7: Schematic diagram of the magnetic structure.

Figure 8: Schematic diagram of the magnetic tool with magnetic attraction.

Figure 9: Schematic diagram of the non-magnetic state of the magnetic tool.

Figure 10: Schematic diagram 1 of the action of the self-oscillating device.

Figure 11: Schematic diagram 2 of the action of the self-oscillating device.

Figure 12: Schematic diagram of the action of the self-oscillating device 3.

In order to achieve a more specific understanding of the structural features and effects of the present invention, I would like to elaborate with the drawings as follows: First, please refer to Figures 1-7. In terms of its structural design, its self-perturbing device (10) There is mainly a machine pedestal (11), with a swing bar rack (13) at the center of the machine pedestal (11), and a machine stand (12) on both sides of the swing bar rack (13), and A magnetic tool (15) is provided at the upper end of the second machine frame (12), and an insulating part (14) is arranged between the magnetic tool (15) and the machine frame (12); the magnetic tool (15) There is mainly a magnetic housing (20). The center of the magnetic housing (20) has a accommodating through hole (21). Insulators (22) are provided on both sides of the horizontal position, and the insulators (22) at the outer end ) Is provided with a positioning point (23), and the accommodating through hole (21) is provided with a magnet (24), and the magnet (24) is dug with a groove (25) at the junction of the positive and negative poles at the front and rear ends of the magnet (24); The magnetic housing (20) is equipped with a rotary disk (30) at the front and rear ends, and a rotary disk cover (26) is covered on the outer side of the rotary disk (30), and the rotary disk (30) is preset There is an inner shrinking ring part (37), and the inner end of the rotating disc (30) has a catching protrusion (31) corresponding to the groove (25) of the magnet (24), and a pinion (32) on the outside , The outer side of the pinion (32) protrudes with a retaining groove (33) structure, and the rotating disk cover (26) is locked with the magnet housing (20), and the retaining groove (33) is locked There is an elastic member (34), and the other end of the elastic member (34) is clamped on the rotating disk cover (26); and the lower end of the pinion (32) is toothed with a sector gear (40), and the fan The shaft (401) of the gear (40) is set on the machine frame (12), and the center of the two magnetic tools (15) is provided with an insulating swing rod (50) on the swing rod frame (13), and Non-insulated metal (51) is provided on both sides of the upper section of the insulating swing rod (50) opposite to the magnetic tool (15), and the middle section of the insulating swing rod (50) has a tie rod axis (411), and the tie rod axis A tie rod (41) extends on both sides of (411), and a long groove (412) is opened on the outermost side for the shaft column (401) of the sector gear (40) to pass through, and under the rod axis (411) There is also a return rod axis (421), a return rod (42) is provided on the return rod axis (421), and both sides of the return rod (42) are respectively provided with a return spring (43) and The elongated slot (423) is used for a fixed post (422) arranged under the shaft post (401) of the sector gear (40) to pass through; in addition, it is inserted in the magnet housing (20) The upper end is equipped with a retaining piece (35) and a positioning piece (36). The retaining piece (35) is installed near the insulating swing rod (50) on the inner side, and the retaining piece (35) and the positioning piece ( 36) are rocker devices. If the inner side of the retaining member (35) is squeezed downward, the outer side of the retaining member (35) will be tilted together to move the positioning member (3). 6) It is tilted up, and the positioning member (36) has a downward limit rod (361) to be clamped in the inner shrinking ring part (37) of the rotating disc (30).

Second, please refer to Figures 8 and 9, if the positive and negative poles of the magnet (24) inside the magnetic tool (15) are level with the side insulator (22), the side of the magnetic tool (15) The side will produce a magnetic attraction effect, but if the positive and negative poles of the magnet (24) are perpendicular to the side insulation (22), the side of the magnetic tool (15) will be in a non-magnetic state.

Furthermore, please refer to Figures 1, 10, 11, and 12 at the same time. When the insulated swing rod (50) is deflected to the right, its pull rod (41) will drive the sector gear (40) and pinion gear (32) to rotate, but Since the inner ring portion (37) of the right turntable (30) is still clamped by the limit rod (361) of the upper positioning member (36), when the turntable (30) cannot rotate, the right side The magnetic tool (15) maintains the magnetic state, so it continues to attract the non-insulated metal (51) on the insulating swing rod (50) to approach, and the elastic member (34) on the right turntable (30) is also due to the pinion ( 32) rotates and continues to tighten, but when the insulating swing rod (50) presses against the locking member (35) at the right end, the locking member (35) will move the positioning member (36) upwards accordingly. The limit rod (361) will release the turntable (30) on the right side to rotate it until the inner shrinking ring part (37) hits the positioning point (23) and stops. At this time, the right magnetic tool (15) The magnet (24) will become a non-magnetic state, and the left magnetic tool (20) will turn its inner magnet (24) into a rotary disk (30) driven by the sector gear (40) below it. It has a magnetic state, so the non-insulated metal (51) of the insulating swing rod (50) will be attracted by the left magnetic tool (15) in reverse, and the return spring (43) on the right return rod (42) The release of the squeeze will also assist in pushing the insulated pendulum rod (50) to swing to the left, and when the insulated pendulum rod (50) swings to the left, its left and right magnetic tools (15) will repeat the turntable ( 30) The rotation and conversion magnetic attraction action, according to this cycle, can generate the spontaneous power swing of the insulated swing rod (50).

Here, only the preferred examples of the existing invention are described, and the illustrations are simply illustrated with the best mode expected to implement the existing invention, and several of the details can also be improved with many obviously different viewpoints. Therefore, the above illustrations and descriptions are for essential explanations, not for limitations.

(10)‧‧‧Self-oscillating device

(11)‧‧‧Machine stand

(12)‧‧‧Machine stand

(13)‧‧‧Swing rod holder

(14)‧‧‧Insulation

(15)‧‧‧Magnetic tool

(20)‧‧‧Magnetic shell

(23)‧‧‧Locating point

(24)‧‧‧Magnet

(30)‧‧‧Turntable

(32)‧‧‧Pinion gear

(34)‧‧‧Elastic parts

(35)‧‧‧Card slot

(36)‧‧‧Locating piece

(361)‧‧‧Limit Rod

(37)‧‧‧Indentation

(40)‧‧‧Sector gear

(401)‧‧‧Axle column

(41)‧‧‧Tie rod

(411)‧‧‧Tie rod axis

(412)‧‧‧Long groove

(42)‧‧‧Return lever

(421)‧‧‧Return rod axis

(422)‧‧‧Fixed column

(423)‧‧‧Long groove

(43)‧‧‧Return spring

(50)‧‧‧Insulation swing rod

(51)‧‧‧Non-insulated metal

Claims (1)

A self-oscillating structure, which mainly has a machine pedestal, a swing rod frame is arranged at the center of the machine pedestal, and both sides of the swing rod frame are equipped with a machine frame, and the upper end of the second machine frame is equipped with a magnetic tool , There is an insulating part between the magnetic tool and the machine frame; the magnetic tool mainly has a magnetic housing, the center of the magnetic housing has a accommodating hole, and the two sides of the horizontal position are equipped with insulating parts, and the outer end There is a positioning point on the insulating part, and the accommodating hole is equipped with a magnet, and the magnet is dug with a groove at the junction of the positive and negative poles at the front and back ends; the front and back ends of the magnet housing are equipped with a rotating disk , And on the outer side of the rotating disk is covered with a rotating disk cover, and the rotating disk is preset with an inner shrinking ring part, and the inner end of the rotating disk has a latching protrusion corresponding to the groove of the magnet, and the outer side has a Pinion, the outer side of the pinion protrudes with a catch groove structure, and the magnet shell and the outer side of the turntable are covered with a turntable cover. The turntable cover can be used for the turntable. It is locked with the magnet shell, and an elastic member is inserted in the clamping groove, and the other end of the elastic member is clamped on the cover of the rotating disk; the lower end of the pinion gear is connected with a sector gear, and the sector gear The shaft column is arranged on the machine frame, and the center of the two magnetic tools is equipped with an insulating swing rod on the swing rod frame, and the upper part of the insulating swing rod is provided with non-insulated metal on both sides of the magnetic tool. There is a tie rod axis in the middle section of the insulated swing rod. A tie rod extends on both sides of the tie rod axis, and a long groove is opened on the outermost side for the sector gear shaft to pass through. In addition, there is a back under the tie rod axis. The axis of the position rod, the axis of the return rod is provided with a return rod, and the two sides of the return rod are respectively provided with a return spring and a long groove, the long groove is provided for one to be set under the sector gear shaft column The fixing post is installed; the upper end of the magnetic shell is equipped with a clamping piece and a positioning piece. The clamping piece is installed on the inner side near the insulating swing rod, and the clamping piece and the positioning piece are rocker devices. If the inner side of the retaining member is squeezed downwards, the outer side of the retaining member will be tilted and the retaining member will be lifted together, and the retaining member has a downward limiting rod that can be clamped into the inner shrinking ring of the turntable; When the insulated swing rod is biased to one side, its pull rod will drive the sector gear and pinion to rotate, but because the inner ring part of the side slewing disk is still clamped by the limit rod of the positioning member above it, it cannot rotate on the slewing disk. In the moving state, the side magnetic tool remains magnetically attracted, so it continues to attract the non-insulated metal on the insulating swing rod to approach, and the elastic member on the side turntable is also continuously tightened due to the rotation of the pinion; When the insulating pendulum rod is pressed against the retaining member at this end, the retaining member will move the positioning member upward, so that the limiting lever will release the rotary disk on that side to rotate until the inner retracted ring is engaged Stop at the positioning point. At this time, the magnet in the magnetic tool on this side will become non-magnetic, and the magnetic tool on the other side will change its internal magnet due to the sector gear underneath it driving the rotary table. It is in a state of magnetic attraction, so the non-insulated metal of the insulated swing rod will be attracted by the magnetic tool on the other side in the reverse direction, and the return spring on the side return rod will also be assisted by the release of the squeeze. Insulated swing rod swings to the other side It is characterized by the use of the magnetic attraction state in which the magnetic tools on both sides of the device are alternately replaced, and the insulating pendulum rod in the center is attracted to produce cyclic swings to achieve the self-powered device.

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