CN110593149A - Novel energy conversion and storage device based on space compression - Google Patents

Abstract

The invention relates to a novel energy conversion and storage device based on space compression, which comprises: the device comprises side plates, a bottom plate, a base, a compression plate, a first telescopic shaft, a second telescopic shaft, a first spring, a permanent magnetic strip, a lead, an upper capacitor plate and a lower capacitor plate, wherein the lower end faces of the first telescopic shaft and the second telescopic shaft are arranged on the base; the outside of second telescopic shaft is provided with the slider, and the slider is provided with the second spring, and slider, the side of connecting the electric capacity board is connected to second spring one end connection slider, the other end, goes up electric capacity board one end and connects in second spring, other end contact dentate structure, and first telescopic shaft and second telescopic shaft are inside to be provided with electromagnetic induction circuit, and electromagnetic induction circuit supplies power to the condenser.

Description

Novel energy conversion and storage device based on space compression

Technical Field

The invention relates to the field of energy conversion and storage, in particular to a novel energy conversion and storage device based on space compression.

Background

Along with scientific development and the progress of modern technology, the requirements of human beings on the quality of life are higher and higher, and along with the increasing demand on energy, the pressure of the energy is more and more shown. The problems of saving energy, developing new energy and utilizing and converting various renewable energy sources become a subject of people in the world. There are many fields of energy consumption, one of the most frequent energy consumption territories being: vehicles on traffic roads, such as cars, trains, etc. The main energy source on a traffic road is the vehicle. The movement of the vehicle is to convert the plant fuel oil into the kinetic energy of the movement of the vehicle. The utilization of the kinetic energy for regeneration and recovery is a very good benefit path. Besides using the kinetic energy of the vehicle, the energy can be recovered by using hardware configuration on the road, such as a drainage system and the like, and if the energy can be recovered, the energy brings good news to human beings.

The traffic transportation industry of China is rapidly developed, so that the urban traffic is inevitably burdened, frequent traffic accidents are caused, and the speed bump plays an important role in reducing the traffic accidents caused by overspeed. In recent years, China pays more and more attention to traffic road safety, and road deceleration strips are popularized. With the wide application of the speed bump, the vehicle generates vibration when passing through the speed bump, and energy is additionally consumed. In order to build an environmentally friendly society, more and more technicians consider how to recover the energy generated by the vibrations of automobiles. Therefore, a novel deceleration strip energy recovery device is provided.

Disclosure of Invention

The purpose of the invention is as follows:

the invention provides a novel energy conversion and storage device based on space compression, aiming at the problem that when a motor vehicle runs on a speed reducing belt, part of energy of the motor vehicle is additionally lost and is not properly utilized.

The technical scheme is as follows:

a novel energy conversion and storage device based on space compression comprises: a side plate, a bottom plate, a base, a pressed plate, a first telescopic shaft, a second telescopic shaft, a first spring, a permanent magnet strip, a lead, an upper capacitor plate and a lower capacitor plate, the side plates are arranged on the periphery of the bottom plate, the base is arranged on the upper surface of the bottom plate, the lower end surfaces of the first telescopic shaft and the second telescopic shaft are arranged on the base, the compression plate is connected with the upper end surfaces of the first telescopic shaft and the second telescopic shaft, the first telescopic shaft and the second telescopic shaft are hollow, the permanent magnet strips are arranged at the inner sides of the first telescopic shaft and the second telescopic shaft, the first spring is respectively arranged on the first telescopic shaft and the second telescopic shaft, the first spring is connected to the base, a tooth-shaped structure is arranged on the side surface of the first telescopic shaft, the tooth-shaped structure comprises a bottom surface and an inclined surface, and the bottom surface is horizontal;

a slider is arranged on the outer side of the second telescopic shaft, a second spring is arranged on the slider, one end of the second spring is connected with the slider, the other end of the second spring is connected with the side surface of the upper capacitance plate, one end of the upper capacitance plate is connected with the second spring, the other end of the upper capacitance plate is in contact with the tooth-shaped structure, and the upper capacitance plate and the lower capacitance plate form a capacitor;

and electromagnetic induction circuits are arranged in the first telescopic shaft and the second telescopic shaft and supply power to the capacitor.

As a preferable mode of the present invention, the first telescopic shaft and the second telescopic shaft are provided with metal collision pieces, the metal collision pieces divide the lead wires, the lead wires are connected to the metal collision pieces, and the metal collision pieces are used for controlling opening and closing of the electromagnetic induction circuit.

As a preferable mode of the present invention, the upper capacitor plate is connected to the pressure receiving plate through a third telescopic shaft, and the tooth-shaped structure is disposed inside the third telescopic shaft.

As a preferable mode of the present invention, the present invention further includes a restoring device connected to the tooth-like structure, the restoring device being configured to change the tooth-like structure to a smooth state.

In a preferred embodiment of the present invention, the electromagnetic induction circuit is provided with a plurality of turns of the conductive coil, and an opening of the conductive coil faces the permanent magnet bar.

As a preferable mode of the present invention, the first telescopic shaft and the second telescopic shaft respectively include an upper half shaft and a lower half shaft, the permanent magnetic strips are disposed on the upper half shaft, the upper half shaft drives the permanent magnetic strips to move, and the lead coil is fixed in a space of the lower half shaft.

In a preferred aspect of the present invention, a winding direction of the coil in the first telescopic shaft is opposite to a winding direction of the coil in the second telescopic shaft, and a magnetic pole of the permanent magnet bar in the first telescopic shaft is opposite to a magnetic pole of the permanent magnet bar in the second telescopic shaft.

As a preferred aspect of the present invention, the novel energy conversion and storage device is a long rectangular shape, the pressure receiving plate is divided into a plurality of sub pressure receiving plates, the first telescopic shaft is divided into a plurality of sub first telescopic shafts, the second telescopic shaft is divided into a plurality of sub second telescopic shafts, and the sub pressure receiving plates are correspondingly connected to the sub first telescopic shafts and the sub second telescopic shafts.

As a preferred mode of the present invention, the sub-compression plates correspond to one of the upper capacitor plate and one of the lower capacitor plate, the upper capacitor plate and the lower capacitor plate are connected to a transfer station through a connection line, and the transfer station is connected to a traffic electrical load.

The invention realizes the following beneficial effects:

1. by utilizing the principle of electromagnetic induction, a part of kinetic energy consumed when a vehicle runs through the speed bump is converted into electric energy stored in the capacitor, so that the energy is saved;

2. the capacitor is controlled to change the electricity storage capacity of the capacitor to a certain degree;

3. the pressure receiving plate is divided into a plurality of parts, so that the pressure receiving plate can independently absorb and discharge electricity on each lane, the situation that the whole pressure receiving plate is pressed all the time is avoided, and the effect of absorbing and discharging electricity is not obvious.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a block diagram of the present invention;

fig. 2 is a schematic view of a first telescopic shaft and a second telescopic shaft according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Refer to fig. 1 and 2. A novel energy conversion and storage device based on space compression comprises: the electric capacitor comprises a side plate 1, a bottom plate 2, a base 3, a pressed plate 4, a first telescopic shaft 5, a second telescopic shaft 6, a first spring 7, a permanent magnetic strip 8, a lead, an upper capacitor plate 9 and a lower capacitor plate 10, wherein the side plate 1 is arranged around the bottom plate 2, the base 3 is arranged on the upper surface of the bottom plate 2, the lower end faces of the first telescopic shaft 5 and the second telescopic shaft 6 are arranged on the base 3, the pressed plate 4 is connected with the upper end faces of the first telescopic shaft 5 and the second telescopic shaft 6, the first telescopic shaft 5 and the second telescopic shaft 6 are hollowed out, the permanent magnetic strip 8 is arranged on the inner sides of the first telescopic shaft 5 and the second telescopic shaft 6, the first spring 7 is arranged on the first telescopic shaft 5 and the second telescopic shaft 6 respectively, the first spring 7 is connected with the base 3, the side face of the first telescopic shaft 5 is provided with a toothed structure 11, the tooth-like structure 11 includes a bottom surface and an inclined surface, and the bottom surface is horizontal.

A slider 12 is arranged on the outer side of the second telescopic shaft 6, a second spring 13 is arranged on the slider 12, one end of the second spring 13 is connected with the slider 12, the other end of the second spring is connected with the side surface of the upper capacitor plate 9, one end of the upper capacitor plate 9 is connected with the second spring 13, the other end of the upper capacitor plate is in contact with the tooth-shaped structure 11, and the upper capacitor plate 9 and the lower capacitor plate 10 form a capacitor.

Electromagnetic induction circuits are arranged inside the first telescopic shaft 5 and the second telescopic shaft 6, and the electromagnetic induction circuits supply power to the capacitors.

In a preferred aspect of the present invention, the first telescopic shaft 5 and the second telescopic shaft 6 are provided with a metal collision piece 14, the metal collision piece 14 divides the lead wire, the lead wire is connected to the metal collision piece 14, and the metal collision piece 14 controls opening and closing of the electromagnetic induction circuit.

As a preferred mode of the present invention, the upper capacitor plate 9 is connected to the pressure receiving plate 4 through a third telescopic shaft, and the tooth-shaped structure 11 is disposed inside the third telescopic shaft.

As a preferable mode of the present invention, the present invention further includes a restoring device, which is connected to the tooth-like structure 11 and is configured to change the tooth-like structure 11 to a smooth state.

In a preferred embodiment of the present invention, the electromagnetic induction circuit is provided with a plurality of turns of the conductive coil 15, and the opening of the conductive coil 15 faces the permanent magnet bar 8.

As a preferred aspect of the present invention, the first telescopic shaft 5 and the second telescopic shaft 6 respectively include an upper half shaft 16 and a lower half shaft 17, the permanent magnet strip 8 is disposed on the upper half shaft 16, the upper half shaft 16 drives the permanent magnet strip 8 to move, and the coil guide 15 is fixed in a space of the lower half shaft 17.

In a preferred aspect of the present invention, the winding direction of the coil 15 inside the first telescopic shaft 5 is opposite to the winding direction of the coil 15 inside the second telescopic shaft 6, and the magnetic poles of the permanent magnet strips 8 inside the first telescopic shaft 5 are opposite to the magnetic poles of the permanent magnet strips 8 inside the second telescopic shaft 6.

As a preferred aspect of the present invention, the novel energy conversion and storage device is a long rectangular shape, the pressure receiving plate 4 is divided into a plurality of sub pressure receiving plates, the first telescopic shaft 5 is divided into a plurality of sub first telescopic shafts, the second telescopic shaft 6 is divided into a plurality of sub second telescopic shafts, and the sub pressure receiving plates are correspondingly connected with the sub first telescopic shafts and the sub second telescopic shafts.

As a preferred mode of the present invention, the sub-stressed plates correspond to one of the upper capacitor plate 9 and one of the lower capacitor plate 10, the upper capacitor plate 9 and the lower capacitor plate 10 are connected to a transfer station through connection lines, and the transfer station is connected to a traffic electrical load.

In the implementation process, when the vehicle runs through the speed bump, the weight of the vehicle can cause a certain pressure on the pressure receiving plate 4, after receiving the pressure, the pressure receiving plate 4 will be pressed downwards to make the first telescopic shaft 5 and the second telescopic shaft 6 be compressed and contracted together, so that the internal structures of the first telescopic shaft 5 and the second telescopic shaft 6 are changed to a certain extent, the contraction of the first telescopic shaft 5 and the second telescopic shaft 6 drives the first spring 7 to deform, when the wheel passes over the pressure receiving plate 4, the pressure on the pressure receiving plate 4 disappears, the pressure transmitted from the pressure receiving plate 4 to the first spring 7 via the first telescopic shaft 5 and the second telescopic shaft 6 disappears, the spring starts to return from the compressed state, thereby restoring the first telescopic shaft 5 and the second telescopic shaft 6 from the state of being pressed by the pressure receiving plate 4, and further restoring the size of the space inside the first telescopic shaft 5 and the second telescopic shaft 6; in the process in which the pressure receiving plate 4 repeatedly receives the pressure from the wheel, the space inside the first telescopic shaft 5 and the second telescopic shaft 6 is changed in a reciprocating manner in the state of space compression and space restoration.

When the first telescopic shaft 5 and the second telescopic shaft 6 are pressed by the force transmitted by the pressure receiving plate 4, taking the first telescopic shaft 5 as an example, for the first telescopic shaft 5, the section diameter of the upper half shaft 16 of the first telescopic shaft 5 is smaller than the section diameter of the lower half shaft 17 of the first telescopic shaft 5, and the size of the outer ring of the upper half shaft 16 of the first telescopic shaft 5 is consistent with the size of the inner ring of the lower half shaft 17 of the first telescopic shaft 5, so that the upper half shaft 16 of the first telescopic shaft 5 extends into the lower half shaft 17 of the first telescopic shaft 5; the lower half shaft 17 of the first telescopic shaft 5 is provided with a wire coil 15, and the size of the wire coil 15 is smaller than that of the inner ring of the upper half shaft 16 of the first telescopic shaft 5.

Therefore, after the first telescopic shaft 5 deforms and contracts under the pressure conducted by the pressure receiving plate 4, the upper half shaft 16 of the first telescopic shaft 5 is pressed to the lower half shaft 17 of the first telescopic shaft 5, the coil guide 15 arranged in the second telescopic shaft 6 is gradually sleeved by the upper half shaft 16 of the first telescopic shaft 5 which is gradually pressed downwards, and at the moment, the permanent magnet strips 8 arranged on two sides of the upper half shaft 16 of the first telescopic shaft 5 are descended along with the descending process of the upper half shaft 16 caused by the pressing of the first telescopic shaft 5; when the force on the pressed plate 4 disappears, the upper half shaft 16 of the first telescopic shaft 5 recovers, so that the permanent magnet strips 8 recover upwards along with the upper half shaft 16 of the first telescopic shaft 5; when the vehicle continuously presses the compression plate 4, the first telescopic shaft 5 continuously reciprocates in the above process, so that macroscopically, the permanent magnet strips 8 continuously reciprocate up and down on two sides of the conductor coil 15, and from the perspective of the conductor coil 15, the conductor coil 15 can be seen as continuously performing motion of cutting the magnet wire in the magnetic field formed by the permanent magnet strips 8, so that a certain current is generated in the conductor coil 15 under the principle of electromagnetic induction.

The method of generating the current in the second telescopic shaft 6 is the same as the method of generating the current in the first telescopic shaft 5, and it is worth mentioning that since the direction of the current exists and the direction of the current generated in the second telescopic shaft 6 coincides with the direction of the current generated in the first telescopic shaft 5 when the current generated in the first telescopic shaft 5 is taken as the forward direction, the direction of the current generated in the second telescopic shaft 6 coincides with the direction of the current generated in the first telescopic shaft 5 when the coil 15 in the second telescopic shaft 6 is wound in the same direction as the coil 15 in the first telescopic shaft 5, and therefore, the position of the merged wire is opposite to that of the coil 15 when the currents are merged, and therefore, the direction of the coil 15 wound in the second telescopic shaft 6 and the direction of the permanent magnet strips 8 in the upper half shaft 16 of the second telescopic shaft 6 are reversed, so that the current generated in the second telescopic shaft 6 can be transmitted in an orientation coinciding with the position of the current generated in the first telescopic shaft 5, and the current generated in the second telescopic shaft 6 can be further transmitted when the current is merged The convenience is added, the length of the lead is saved, and the current loss is reduced.

To first telescopic shaft 5 and second telescopic shaft 6, all be provided with metal collision piece 14, metal collision piece 14 cuts apart the inside electromagnetic induction circuit that forms of first telescopic shaft 5 and second telescopic shaft 6 for the electromagnetic induction circuit is in the state of disconnection, and only can drive first telescopic shaft 5 and the shrink of second telescopic shaft 6 to metal collision piece 14 after mutual contact the electromagnetic induction circuit that can open at the pressure that receives by pressure plate 4, thereby has guaranteed that the electromagnetic induction circuit can not be easily worked.

When the pressed plate 4 receives pressure, the pressed plate 4 can also be lowered together with the upper capacitor plate 9 connected with the third telescopic shaft when being lowered, the lower surface of the tooth-shaped structure 11 is a transverse surface, and the side surface of the tooth-shaped structure is an inclined surface, so that the upper capacitor plate 9 can slide downwards along the side surface of the tooth-shaped structure 11 in the lowering process of the upper capacitor plate 9, and at the moment, the transverse position of the upper capacitor plate 9 can be translated to a certain extent under the action of the inclined surface of the tooth-shaped structure 11, so that the upper capacitor plate can be prevented from being blocked by strong rigidity in the translation process under the action of the second spring 13; after the upper capacitor plate 9 slides down from the inclined surface of the toothed structure 11, the limiting effect of the inclined surface on the upper capacitor plate 9 disappears, the upper capacitor plate 9 is restored in the transverse position under the action of the second spring 13 and is blocked by the lower surface of the toothed structure 11, so that the positions of the upper capacitor plate 9 and the lower capacitor plate 10 are fixed, and the capacitor formed by the upper capacitor plate 9 and the lower capacitor plate 10 is fixed. Since the capacitor storage capacity is inversely proportional to the distance between the capacitor plates, the distance between the upper capacitor plate 9 and the lower capacitor plate 10 decreases after being pressed down, so that the storage capacity of the capacitor constituted increases.

When power is needed to be supplied, the reduction device gradually retracts the toothed structure 11 from bottom to top, so that the upper capacitor plate 9 can retract under the driving of the third telescopic shaft, the distance between the upper capacitor plate 9 and the lower capacitor plate 10 is increased, the electric storage capacity of the formed capacitor is reduced, and the capacitor discharges outwards.

In practice, the pressure-receiving plates are divided according to the number of lanes, so that each lane corresponds to one sub pressure-receiving plate, each sub pressure-receiving plate corresponds to a supporting facility of a sub first telescopic shaft, a sub second telescopic shaft and the like, and each lane can independently absorb and discharge electricity.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (9)

1. A novel energy conversion and storage device based on space compression is characterized by comprising: a side plate, a bottom plate, a base, a pressed plate, a first telescopic shaft, a second telescopic shaft, a first spring, a permanent magnet strip, a lead, an upper capacitor plate and a lower capacitor plate, the side plates are arranged on the periphery of the bottom plate, the base is arranged on the upper surface of the bottom plate, the lower end surfaces of the first telescopic shaft and the second telescopic shaft are arranged on the base, the compression plate is connected with the upper end surfaces of the first telescopic shaft and the second telescopic shaft, the first telescopic shaft and the second telescopic shaft are hollow, the permanent magnet strips are arranged at the inner sides of the first telescopic shaft and the second telescopic shaft, the first spring is respectively arranged on the first telescopic shaft and the second telescopic shaft, the first spring is connected to the base, a tooth-shaped structure is arranged on the side surface of the first telescopic shaft, the tooth-shaped structure comprises a bottom surface and an inclined surface, and the bottom surface is horizontal;

a slider is arranged on the outer side of the second telescopic shaft, a second spring is arranged on the slider, one end of the second spring is connected with the slider, the other end of the second spring is connected with the side surface of the upper capacitance plate, one end of the upper capacitance plate is connected with the second spring, the other end of the upper capacitance plate is in contact with the tooth-shaped structure, and the upper capacitance plate and the lower capacitance plate form a capacitor;

and electromagnetic induction circuits are arranged in the first telescopic shaft and the second telescopic shaft and supply power to the capacitor.

2. The novel energy conversion and storage device based on space compression as claimed in claim 1, wherein: the first telescopic shaft and the second telescopic shaft are provided with metal collision pieces, the metal collision pieces are divided into wires, the wires are connected with the metal collision pieces, and the metal collision pieces are used for controlling the opening and closing of the electromagnetic induction circuit.

3. The novel energy conversion and storage device based on space compression as claimed in claim 2, wherein: the upper capacitor plate is connected with the pressure receiving plate through a third telescopic shaft, and the tooth-shaped structure is arranged in the third telescopic shaft.

4. A novel energy conversion and storage device based on space compression as claimed in claim 3, wherein: the reduction device is connected with the dentate structure and is used for changing the dentate structure into a smooth state.

5. The novel energy conversion and storage device based on space compression as claimed in claim 1, wherein: the electromagnetic induction circuit is provided with a plurality of turns of lead coils, and the openings of the lead coils are right opposite to the permanent magnet strips.

6. The novel energy conversion and storage device based on space compression as claimed in claim 5, wherein: the first telescopic shaft and the second telescopic shaft respectively comprise an upper half shaft and a lower half shaft, the permanent magnetic strips are arranged on the upper half shaft, the upper half shaft drives the permanent magnetic strips to move, and the wire ring is fixed in the space of the lower half shaft.

7. The novel energy conversion and storage device based on space compression as claimed in claim 6, wherein: the winding direction of the wire coil in the first telescopic shaft is opposite to that of the wire coil in the second telescopic shaft, and the magnetic pole of the permanent magnetic strip in the first telescopic shaft is opposite to that of the permanent magnetic strip in the second telescopic shaft.

8. The novel energy conversion and storage device based on space compression as claimed in claim 1, wherein: novel energy conversion and storage device is long rectangle form, the pressed plate is divided into a plurality of son pressed plates, first telescopic shaft is divided into a plurality of son first telescopic shafts, the second telescopic shaft is divided into a plurality of son second telescopic shafts, son pressed plates correspond and are connected with son first telescopic shafts and son second telescopic shafts.

9. The novel energy conversion and storage device based on space compression as claimed in claim 8, wherein: the sub compression plates respectively correspond to the upper capacitor plate and the lower capacitor plate, the upper capacitor plate and the lower capacitor plate are respectively connected to a transfer station through connecting wires, and the transfer station is connected with a traffic electric load.