阅读说明：本技术 一种震荡发电机 (Vibrate generator ) 是由 陶维勇 黄太 于 2020-08-14 设计创作，主要内容包括：本发明提供一种震荡发电机,包括震荡杆、螺旋连接器；震荡杆包括直杆、位于直杆末端部段的连接孔、杆体结构；在杆体结构上设有突出于杆体结构的震荡导杆；螺旋连接器包括一圆管,圆管的外表面上设有导杆运动路径；震荡杆、螺旋连接器均连接在机架上,机架上设有第一横杆和第二横杆；第一横杆上设有一垂直于第一横杆的连接杆,震荡杆通过连接孔套接在连接杆上；位于连接孔一端的直杆作为主动轴,位于连接孔另一端的杆体结构作为从动轴,主动轴向正方向摆动,在连接杆作为中转轴的作用下,带动从动轴向反方向摆动；震荡导杆在导杆运动路径中摆动。设计震荡杆、螺旋连接器,把以震荡形式或震动形式体现的能量(废能)进行收集。(The invention provides a vibration generator, which comprises a vibration rod and a spiral connector; the oscillating rod comprises a straight rod, a connecting hole positioned at the tail end part of the straight rod and a rod body structure; a vibration guide rod protruding out of the rod body structure is arranged on the rod body structure; the spiral connector comprises a circular tube, and a guide rod motion path is arranged on the outer surface of the circular tube; the vibrating rod and the spiral connector are both connected to a rack, and a first cross rod and a second cross rod are arranged on the rack; the first cross rod is provided with a connecting rod perpendicular to the first cross rod, and the oscillating rod is sleeved on the connecting rod through a connecting hole; the straight rod positioned at one end of the connecting hole is used as a driving shaft, the rod body structure positioned at the other end of the connecting hole is used as a driven shaft, the driving shaft swings in the positive direction, and the driven shaft is driven to swing in the negative direction under the action of the connecting rod as a middle rotating shaft; the oscillating guide rod swings in the guide rod movement path. The vibration rod and the screw connector are designed to collect energy (waste energy) embodied in a vibration mode or a vibration mode.)

1. An oscillating generator, comprising: comprises a vibrating rod and a spiral connector; the oscillating rod comprises a straight rod, a connecting hole positioned at the tail end part of the straight rod and a rod body structure; a vibration guide rod protruding out of the rod body structure is arranged on the rod body structure; the spiral connector comprises a circular tube, and a guide rod motion path is arranged on the outer surface of the circular tube; the vibrating rod and the spiral connector are both connected to the rack, and a first cross rod for connecting the vibrating rod to the rack through a connecting hole extends out of the rack; the first cross rod is provided with a connecting rod perpendicular to the first cross rod, and the oscillating rod is sleeved on the connecting rod through a connecting hole; a second cross rod which is used for connecting the round tube to the rack through an inner pipeline of the round tube extends out of the rack; the straight rod positioned at one end of the connecting hole is used as a driving shaft, the rod body structure positioned at the other end of the connecting hole is used as a driven shaft, the driving shaft swings in the positive direction, and the driven shaft is driven to swing in the negative direction under the action of the connecting rod as a middle rotating shaft; the oscillating guide rod is in contact with the motion path of the connecting guide rod.

2. A vibrating generator according to claim 1, wherein: the rod body structure is a straight rod structure, the straight rod structure is an extension part of a straight rod, at least one oscillating guide rod is arranged on the straight rod structure, and a spiral connector is arranged at a position corresponding to the oscillating guide rod.

3. A vibrating generator according to claim 2, wherein: the rod body structure is a rod frame consisting of a plurality of rod bodies, at least two straight rod structures are connected on the rod frame, at least one oscillating guide rod is arranged on each straight rod structure, and a spiral connector is arranged at the position corresponding to the oscillating guide rod.

4. A vibrating generator according to claim 1, wherein: and a bearing used for enabling the round pipe to rotate on the second cross rod is arranged between the second cross rod and the inner pipeline of the round pipe.

5. A vibrating generator according to claim 1, wherein: the tail end of the straight rod is connected with a handle.

6. A vibrating generator according to claim 1, wherein: the tail end of the straight rod is connected with a connecting part used for contacting a vibration source or a vibration source.

7. A vibrating generator according to claim 1, wherein: the guide rod moving path is a groove wound on the outer surface of the round tube.

8. A vibrating generator as claimed in claim 7, wherein: the channel presents a left channel positioned on the front side and a right channel positioned on the back side on the outer surface of the circular tube, and the left channel and the right channel present axisymmetric figures by taking the longitudinal section of the circular tube as an axis; the left channel and the right channel are in butt joint and communicated to form a guide rod movement path; a left channel having a left side and a right side; the side wall of the left channel is provided with an upper bottom point and a lower bottom point at the rightmost position; an upper vertex and a lower vertex are arranged on the side wall of the right channel at the rightmost position; the side wall of the right channel is provided with an upper bottom point and a lower bottom point at the leftmost position; the upper vertex and the lower vertex of the left channel and the upper vertex and the lower vertex of the right channel are respectively superposed, and the upper bottom point and the lower bottom point of the left channel and the upper bottom point and the lower bottom point of the right channel are respectively superposed.

Technical Field

The invention relates to a generator, in particular to a vibration generator applied to waste energy collection.

Background

When a disaster comes, traffic paralysis occurs, power supply of power-on equipment cannot be supplied due to line faults, injuries and injuries are accumulated, and hospitals and clinics cannot guarantee lighting power consumption and power consumption of conventional medical equipment, disasters can be caused. Emergency energy storage equipment is actively researched and developed by many colleges and universities and research institutions, and can be used for emergency energy storage through wind driven generators and solar power generation, but emergency energy storage cannot be mentioned when wind power and sunlight are unavailable; there are also fitness equipment and manual assistance to collect waste energy to generate electricity, which by itself does not meet the needs of large disaster scenarios.

In safe production and life, a lot of waste energy is wasted invisibly, for example, a pulverizer for calcium powder production and processing has a lot of waste energy diffused out in the form of vibration in the pulverizer itself and on the body surface during work, and when some cultivation machines cultivate crops or plough, the waste energy reflected in the form of vibration can appear in a back-and-forth swinging mode.

The waste energy is collected by using the energy in the vibration form or the energy in the vibration form, so that the resources can be greatly saved; a set of technical scheme capable of combining manpower to generate electricity is designed, and the emergency power generation and utilization effect can be achieved in large disasters.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide an oscillating generator,

in order to achieve the purpose, the invention is realized by the following technical scheme:

an oscillation generator comprises an oscillation rod and a spiral connector; the oscillating rod comprises a straight rod, a connecting hole positioned at the tail end part of the straight rod and a rod body structure; a vibration guide rod protruding out of the rod body structure is arranged on the rod body structure; the spiral connector comprises a circular tube, and a guide rod motion path is arranged on the outer surface of the circular tube; the vibrating rod and the spiral connector are both connected to the rack, and a first cross rod for connecting the vibrating rod to the rack through a connecting hole extends out of the rack; the first cross rod is provided with a connecting rod perpendicular to the first cross rod, and the oscillating rod is sleeved on the connecting rod through a connecting hole; a second cross rod which is used for connecting the round tube to the rack through an inner pipeline of the round tube extends out of the rack; the straight rod positioned at one end of the connecting hole is used as a driving shaft, the rod body structure positioned at the other end of the connecting hole is used as a driven shaft, the driving shaft swings in the positive direction, and the driven shaft is driven to swing in the negative direction under the action of the connecting rod as a middle rotating shaft; the oscillating guide rod is in contact with the motion path of the connecting guide rod.

The rod body structure is a straight rod structure, the straight rod structure is an extension part of a straight rod, at least one oscillating guide rod is arranged on the straight rod structure, and a spiral connector is arranged at a position corresponding to the oscillating guide rod.

The rod body structure is a rod frame consisting of a plurality of rod bodies, at least two straight rod structures are connected on the rod frame, at least one oscillating guide rod is arranged on each straight rod structure, and a spiral connector is arranged at the position corresponding to the oscillating guide rod.

And a bearing used for enabling the round pipe to rotate on the second cross rod is arranged between the second cross rod and the inner pipeline of the round pipe.

The tail end of the straight rod is connected with a handle.

The tail end of the straight rod is connected with a connecting part used for contacting a vibration source or a vibration source.

The guide rod moving path is a groove wound on the outer surface of the round tube.

The channel presents a left channel positioned on the front side and a right channel positioned on the back side on the outer surface of the circular tube, and the left channel and the right channel present axisymmetric figures by taking the longitudinal section of the circular tube as an axis; the left channel and the right channel are in butt joint and communicated to form a guide rod movement path; a left channel having a left side and a right side; the side wall of the left channel is provided with an upper bottom point and a lower bottom point at the rightmost position; an upper vertex and a lower vertex are arranged on the side wall of the right channel at the rightmost position; the side wall of the right channel is provided with an upper bottom point and a lower bottom point at the leftmost position; the upper vertex and the lower vertex of the left channel and the upper vertex and the lower vertex of the right channel are respectively superposed, and the upper bottom point and the lower bottom point of the left channel and the upper bottom point and the lower bottom point of the right channel are respectively superposed.

Creating an idea:

the energy (waste energy) embodied in the form of oscillation or vibration is collected, the collection mode is embodied in that a medium which can contact or sense an energy source to do work is contacted with the energy source, the energy source does work on the medium to cause the medium to do oscillation motion or swing, and the medium converts the collected energy into the work embodied in the form of rotation motion through another medium. The rotary motion is the necessary foundation and energy conversion foundation for the power generation of the generator.

One of the working principles is as follows: the vibration energy is converted into vibration energy through the connecting component, the vibration energy does work to drive the vibration rod to swing, the vibration rod drives the vibration guide rod to swing, namely the vibration guide rod performs vibration motion in a guide rod motion path, and therefore the circular tube is driven to rotate.

The second working principle is as follows: the rotating motion of the circular tube drives the wire coil to rotate in the magnetic field, and the wire coil cuts the magnetic induction wire in the magnetic field to generate induced electromotive force.

One of the working processes is as follows: the handle is held by hand to swing, the driving shaft swings in the positive direction, and the driven shaft is driven to swing in the negative direction under the action of the connecting rod serving as a middle rotating shaft; the lower guide rod of the oscillating guide rod swings in the motion path and drives the circular tube to rotate.

The second working process is as follows: the connecting component is in contact with a vibration source or a vibration source, and does vibration motion after being stressed, the connecting component actively swings in the positive direction along the axial direction, and the connecting component drives the driven shaft to swing in the negative direction under the action of the connecting rod serving as a middle rotating shaft; the lower guide rod of the oscillating guide rod swings in the motion path and drives the circular tube to rotate.

Whether the oscillating guide rod needs to limit the moving track and the composition and layout mode of the connecting part are all covered parts of the technical scheme, and the oscillating guide rod can be adjusted according to actual conditions and how to adjust according to needs, so that the oscillating guide rod can be thought by a person skilled in the art and is not described in detail.

Advantageous effects

Designing a vibration rod and a spiral connector, and collecting energy (waste energy) reflected in a vibration mode or a vibration mode; the energy-saving effect is realized, and simultaneously, new energy is utilized. Manual power generation is realized; can adapt to the temporary emergency energy storage function of disasters.

Drawings

FIG. 1 is a schematic structural diagram of an oscillating generator;

FIG. 2 is a side view of a circular tube;

FIG. 3 is a schematic view of an oscillating rod;

FIG. 4 is a second schematic view of the oscillating rod;

FIG. 5 is a third schematic view of the oscillating rod;

fig. 6 is a side view of a circular tube.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.