CN110425101A - A kind of polarization generating means system - Google Patents

Abstract

The invention discloses a kind of polarization generating means system, including energy driving device, the first linkage and the second linkage, drive substrate and energy storage medium are equipped in energy driving device；First linkage and the second linkage respectively include linkage substrate, linkage dielectric chamber, polarization connecting tube and are located at the indoor linkage acting medium of linkage medium, linkage substrate is set in linkage dielectric chamber and forms reciprocating sealed connection with its medial surface, linkage dielectric chamber is connect with polarization connecting tube, and the connecting tube that polarizes is connected to linkage acting medium；The two sides of drive substrate are connect with the first linkage substrate, the second linkage substrate by the connecting rod that links respectively；Carry out energy transfer device for driving drive substrate to squeeze the energy storage medium, drives the first linkage substrate and the second linkage substrate to do work respectively, form alternate positive/negative-pressure at the first polarization connecting tube and the second polarization connecting tube.In this way, passing through the influence of the energy positive pressure and energy vacuum cavitations kept apart to respective periphery subenvironment.

Description

A kind of polarization generating means system

Technical field

The present invention relates to energy driving and power interchange technique field, in particular to a kind of polarization generating means systems.

Background technique

There is low-temperature heat source in many during nature and human production life, existing middle low-temperature heat source, which utilizes, to be mostly used Heat pump techniques concentrate heat, are used again after making up to higher temperature, but the approach utilized is very limited, and Utilization efficiency is extremely low.

Summary of the invention

For this purpose, energy utilization efficiency can be improved, solve existing energy the present invention provides a kind of polarization generating means system Measure the slow technical problem of exchange efficiency.

Used technical solution is as follows:

A kind of polarization generating means system, including energy driving device, the first linkage and the second linkage, it is described Drive substrate and energy storage medium are equipped in energy driving device；

First linkage includes the first linkage substrate, the first linkage dielectric chamber, the first polarization connecting tube and is located at The indoor first linkage acting medium of first linkage medium, the first linkage substrate are set to the first linkage medium Interior simultaneously forms reciprocating sealed connection with its medial surface, and the first linkage dielectric chamber and first polarization connect Pipe connection, and the first polarization connecting tube is connected to the first linkage acting medium；

Second linkage includes the second linkage substrate, the second linkage dielectric chamber, the second polarization connecting tube and is located at The indoor second linkage acting medium of second linkage medium, the second linkage substrate are set to the second linkage medium Interior simultaneously forms reciprocating sealed connection with its medial surface, and the second linkage dielectric chamber and second polarization connect Pipe connection, and the second polarization connecting tube is connected to the second linkage acting medium；

The two sides of the drive substrate are connected with the first linkage substrate, the second linkage substrate by linkage connecting rod respectively It connects；

The drive substrate is carried out energy transfer device with one and is connect, and carrys out energy transfer device for driving the driving Substrate squeezes the energy storage medium, and drives the first linkage substrate and the second linkage substrate to do work respectively, and in institute It states and forms alternate positive/negative-pressure at the first polarization connecting tube and the second polarization connecting tube.

The first linkage acting medium is identical or different working media with the second linkage acting medium.

The first linkage dielectric chamber is equipped at least one or the more first linkage acting media internal with it The the first polarization connecting tube being connected；The second linkage dielectric chamber is equipped at least one or the more institutes internal with it State the second polarization connecting tube that the second linkage acting medium is connected.

Preferably, a control valve is respectively set in the first polarization connecting tube described in every and the second polarization connecting tube.

It is further preferred that a polarization connecting tube and the second polarization connecting tube are caliber in gradually in its longitudinal direction Change or grade structure changes.

Energy storage medium in the energy driving device is a spring, one end of the spring and the drive substrate Connection, the other end hold moving cell with one and connect.

Or it is further, the energy driving device further includes an airtight cavity, and the drive substrate is set to described close In closed chamber body, and form reciprocating sealed connection with its medial surface, the linkage connecting rod through the airtight cavity and It is fixedly connected with the drive substrate；The airtight cavity is divided into two chambers, the energy storage by the drive substrate Medium is respectively arranged in two chambers, and the energy storage medium of connection corresponding with two chambers is respectively equipped on the airtight cavity Import and energy storage medium outlet；It is described come energy transfer device include carrying out energy transfer medium access apparatus and toward dynamic Energy transmission medium access apparatus, pass through respectively the energy storage medium import and energy storage medium outlet with it is corresponding Chamber be connected.

First linkage dielectric chamber of first linkage is an airtight chamber, and the first linkage substrate is by described the One linkage dielectric chamber is divided into medial compartment and lateral compartments, and the second linkage dielectric chamber of second linkage is one closed The second linkage dielectric chamber is divided into medial compartment and lateral compartments by chamber, the second linkage substrate, and described first The medial compartment of dynamic device is connected with the medial compartment of second linkage by a connecting line.

The energy storage medium is gas, storage energy wave or one of solution or other any energy storage fluids.

The drive substrate, the first linkage substrate, the second linkage substrate are piston or diaphragm.

The linkage connecting rod may be bracing wire or the fascia of transmitting movement.

Technical solution of the present invention has the advantages that

A. the present invention will act on the energy of drive substrate by linking connecting rod respectively while being transmitted to the first linkage It realizes and negative work is done to linkage acting medium in the first linkage by linkage with the second linkage, and simultaneously second Dynamic device does the function of positive work to linkage acting medium；Or realize and negative work is done to linkage acting medium in the second linkage, And do the function of positive work to linkage acting medium in the first linkage simultaneously, it realizes and links in the first linkage and second Device alternately does positive work and negative work process.It is increased in this way, energy will be gathered in the tail portion of the first polarization connecting tube, while second The tail portion for the connecting tube that polarizes, which is reduced, to reduce, and quickly forms the energy positive pressure of high energy and the energy negative pressure of low energy respectively, and pass through control Influence of the energy positive pressure and energy negative pressure that valve control processed is isolated from each other to respective periphery subenvironment.

B. the present invention alternately does positive work and negative work process to the first linkage and the second linkage and carries out simultaneously It produces a contrary effect, it, can be to another pair altogether when applying the invention to another relevant conjugation effect Yoke effect generates facilitation, functions similarly to the miraculous effects of chemical catalyst effect.

Although C. the present invention after having understood catalytic effect of the invention, is passed through from bionics Study The Structure Comparison of the biocatalysts such as common biocatalyst such as chlorophyll and ferroheme with nature, it was found that of the invention Physical structure and biocatalyst micro molecule structure have surprising similarity, and the physical mechanism that the present invention is contained will be The mechanism study and artificial copy for deepening biocatalyst open up new era, have great social and economic implications, the present invention Value it is inestimable, meaning has a far reaching influence.

Detailed description of the invention

It, below will be to needed in specific embodiment in order to illustrate more clearly of the specific embodiment of the invention Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is some embodiments of the present invention, for this field For those of ordinary skill, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the polarization generating means system schematic of the first embodiment provided by the present invention；

Fig. 2 is the polarization generating means system schematic of second of embodiment provided by the present invention.

Description of symbols:

1- energy driving device

11- drive substrate, 12- energy storage medium, 13- hold moving cell

14- airtight cavity, 14a- energy storage medium import, the outlet of 14b- energy storage medium

The first linkage of 2-

The linkage substrate of 21- first, the linkage dielectric chamber of 22- first

The polarization connecting tube of 23- first, the linkage acting medium of 24- first

The second linkage of 3-

The linkage substrate of 31- second, the linkage dielectric chamber of 32- second

The polarization connecting tube of 33- second, the linkage acting medium of 34- second

4- linkage connecting rod

5- carrys out energy transfer device

51- carrys out energy transfer medium access apparatus

52- is toward energy transfer medium access apparatus

6- control valve；7- connecting line；8- control valve.

Specific embodiment

Technical solution of the present invention is clearly and completely described below in conjunction with attached drawing, it is clear that described implementation Example is a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiment of the present invention, ordinary skill people Member's every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

As shown in Figure 1, the present invention provides a kind of polarization generating means system, including energy driving device 1, first links Device 2 and the second linkage 3 are equipped with drive substrate 11 and energy storage medium 12 in energy driving device 1；First linkage dress Set 2 include first linkage substrate 21, first link dielectric chamber 22, first polarize connecting tube 23 and be located at first linkage dielectric chamber 22 The first interior linkage acting medium 24, the first linkage substrate 21 are set in the first linkage dielectric chamber 22 and are formed with its medial surface Reciprocating sealed connection, the first linkage dielectric chamber 22 are connect with the first polarization connecting tube 23, and the first polarization connecting tube 23 are connected to the first linkage acting medium 24；

Second linkage 3 includes the second linkage substrate 31, second linkage dielectric chamber 32, second polarization connecting tube 33 and position In the second linkage acting medium 34 in the second linkage dielectric chamber 32, the second linkage substrate 31 is set to the second linkage dielectric chamber 32 It is interior and form reciprocating sealed connection with its medial surface, the second linkage dielectric chamber 32 and the second polarization connecting tube 33 company It connects, and the second polarization connecting tube 33 is connected to the second linkage acting medium 34；

The two sides of drive substrate 11 are connect with the first linkage substrate 21, second linkage substrate 31 by the connecting rod 4 that links respectively；

Drive substrate 11 is carried out energy transfer device 5 with one and is connect, and carrys out energy transfer device 5 for driving drive substrate 11 squeeze energy storage medium 12, provide for energy storage medium 12 and originate energy, drive the first linkage substrate 21 and second Dynamic substrate 31 does work respectively, and forms alternate positive/negative-pressure at the first polarization connecting tube 23 and the second polarization connecting tube 33, when It completes after externally pushing drive substrate acting, carrys out energy transfer device 5 and stop externally doing work, energy storage medium will drive the One linkage substrate 21 and the second linkage substrate 31 reset, and alternately do to realize in the first linkage and the second linkage Positive work and negative work process.It is increased in this way, energy will be gathered in the tail portion of the first polarization connecting tube, while in the second polarization connecting tube Tail portion reduce reduce, quickly form the energy positive pressure of high energy and the energy negative pressure of low energy respectively, and phase is controlled by control valve Influence of the energy positive pressure and energy negative pressure mutually kept apart to respective periphery subenvironment.

According to the difference of local environment, the first linkage acting medium 24 is identical or different with the second linkage acting medium 34 Working media.

According to use environment, at least one or more and first inside it can be equipped on the first linkage dielectric chamber 22 The first polarization connecting tube 23 that linkage acting medium 24 is connected；Second linkage dielectric chamber 32 be equipped at least one or more with The second polarization connecting tube 33 that its second internal linkage acting medium 34 is connected；Here the first polarization connecting tube 23 and the It is in gradual change or grade structure changes that two polarization connecting tubes 33 are preferably caliber in its longitudinal direction.Due in the first linkage dielectric chamber Space and the interior space of the second linkage dielectric chamber are than each individual corresponding first polarization connecting tube and the second polarization The interior space of connecting tube is much bigger, is situated between when working media enters linkage dielectric chamber from the tail portion of polarization connecting tube or from linkage When matter room enters polarization connecting tube, the acceleration effect of similar evaporator or Venturi tube can be generated, media property such as temperature can be caused The rapid variation of degree, speed or density etc..It is further preferred that in every first polarization connecting tube 23 and the second polarization connecting tube A control valve 6 is respectively set on 33, can be very good to control the influence size to its surrounding enviroment.

As shown in Figure 1, the energy storage medium 12 in energy driving device 1 is a spring, one end of spring and driving base Plate 11 connects, and the other end holds moving cell 13 with one and connect.Here the moving cell 13 that holds is non-moving end.

When carrying out energy transfer device 5 active force being applied in drive substrate, drive substrate downlink and make spring by To compression, under the drive of linkage connecting rod, the first linkage substrate and the second linkage substrate are moved down, at this time the first linkage substrate Suction action is done to the first linkage dielectric chamber, executes negative work process, and the second linkage substrate squeezes the second linkage dielectric chamber Movement executes positive power.

When come energy transfer device stop be applied in drive substrate active force when, drive substrate can be in recoil of spring It is resetted under the action of active force, drives the first linkage substrate and the second linkage substrate to reset by linkage connecting rod, store spring Long-pending portion of energy is fully released.

As shown in Fig. 2, further including an airtight cavity 14 in energy driving device 1, drive substrate 11 is set to closed chamber In body 14, and reciprocable being formed with its medial surface and is tightly connected, linkage connecting rod 4 runs through airtight cavity 14 and and drive substrate 11 are fixedly connected；Airtight cavity 14 is divided into two chambers by drive substrate 11, and energy storage medium 12 is respectively arranged at two chambers Interior, and the energy storage medium import 14a and energy storage Jie of connection corresponding with two chambers are respectively equipped on airtight cavity 14 Matter exports 14b, and being distributed in the indoor energy storage medium 12 of two chambers here can be same medium, or different medium, Gas, storage energy wave or one of solution or other any energy storage fluids can be used；Carrying out energy transfer device 5 includes coming Energy transfer medium access apparatus 51 and toward energy transfer medium access apparatus 52, pass through respectively energy storage medium into Mouth 14a and energy storage medium outlet 14b are connected with corresponding chamber.

Further, a first linkage dielectric chamber 22 preferably airtight chamber of the first linkage 2 in Fig. 2, first First linkage dielectric chamber 22 is divided into medial compartment and lateral compartments, the second linkage of the second linkage 3 by linkage substrate 21 Dielectric chamber 32 is an airtight chamber, and the second linkage dielectric chamber 32 is divided into medial compartment and outboard cavity by the second linkage substrate 31 Room, the medial compartment of the first linkage 2 and the medial compartment of the second linkage 3 are connected by a connecting line 7.Pass through Connecting pipeline makes the first linkage 2 and the medial compartment of the linkage dielectric chamber of the second linkage 3 be connected, can be in chamber For the conduction such as hydraulic oil, water, air and sealing medium, the vacuum eliminated between both ends linkage substrate and medial compartment can be played and made With, have both conduction thrust, collaboration sealing linkage acting medium and lubricating action etc..

It is further preferred that by being additionally provided with the medium access port with control valve 8, Ke Yi on connecting line 7 This carries out the controls such as the replacement of medium operation.

Pressurising can be carried out to the chamber in Fig. 2 by carrying out energy transfer medium access apparatus 51, be transmitted toward energy Medium access apparatus 52 carries out pumping operation to the chamber corresponding to it, so that the generation of drive substrate 11 be made to move downward, realizes Suction to the first linkage dielectric chamber in the first linkage, while realizing to the second linkage dielectric chamber in the second linkage It squeezes；When executing pressurising operation into corresponding cavity room toward energy transfer medium access apparatus, carry out the discrepancy of energy transfer medium When device executes pumping operation into corresponding cavity room, under the action of linking connecting rod, the first linkage in the first linkage is situated between Extruding will be generated in matter room, will generate suction in the second linkage dielectric chamber in the second linkage.

The above-mentioned linkage substrate 21, second of drive substrate 11, first links substrate 31 as piston or diaphragm.Link connecting rod 4 Or bracing wire or the fascia of transmitting movement.

The following specifically describes the action process of whole system.

A. control comes outside the transmitting of energy transfer device to act on drive substrate " move ", acts on driving base The energy of plate does not have positive negative work attribute.

B. it is obtaining " move " after movement transmission, energy is transmitted to two by linkage connecting rod by drive substrate simultaneously respectively End, the first linkage substrate generate swabbing action to the working media of the first linkage dielectric chamber, and the first linkage substrate links to first The indoor first linkage acting medium of medium does negative work；The first pole become again by the gradual change or grade of the first linkage dielectric chamber tail portion Change the acceleration effect of connecting tube, so that the energy of medium is reduced rapidly in the first polarization connecting tube, the energy for forming low energy pole is negative Pressure side；By the control valve of control the first polarization connecting tube opening, so that the energy at energy negative pressure end is connected by the first polarization Adapter tube opening influences its periphery subenvironment；

Meanwhile squeezing action is generated to the indoor second linkage acting medium of the second linkage medium in the second linkage substrate, Second linkage substrate does positive work to the second linkage acting medium；The become again by the gradual change or grade of the second linkage dielectric chamber tail portion The acceleration effect of two polarization connecting tubes forms the energy of high energy pole so that the energy of medium increases sharply in the second polarization connecting tube Measure positive pressure side；By the control valve of control the second polarization connecting tube opening, so that the energy at energy positive pressure end passes through the second pole Changing connection tube opening influences its periphery subenvironment；Energy storage medium has accumulated part energy during to move simultaneously.

C. " the move " actuating length come outside the transmitting of energy transfer device terminates, the part of energy storage medium accumulation Energy starts to discharge, and drive substrate starts the stroke " toward dynamic ".

D. in " toward dynamic " stroke, energy is transmitted to the first linkage by linkage connecting rod by drive substrate simultaneously respectively With the second linkage, the first linkage substrate generates squeezing action to the first linkage acting medium of the first linkage dielectric chamber, the One linkage substrate does positive work to the first linkage acting medium；First become again by the gradual change or grade of the first linkage dielectric chamber tail portion The acceleration effect for the connecting tube that polarizes forms the energy of high energy pole so that the energy of medium increases sharply in the first polarization connecting tube Positive pressure side；By the control valve of control the first polarization connecting tube opening, so that the energy at energy positive pressure end passes through the first polarization Connection tube opening influences its periphery subenvironment；

Meanwhile in the second linkage end, second linkage acting medium of the second linkage substrate to the second linkage dielectric chamber Swabbing action is generated, the second linkage substrate does negative work to the second linkage acting medium；Pass through the second linkage dielectric chamber tail portion again The acceleration effect for the second polarization connecting tube that gradual change or grade become, so that the energy of medium is reduced rapidly in the second polarization connecting tube, Form the energy negative pressure end of low energy pole；By controlling the control valve of the second polarization connecting tube opening, so that energy negative pressure end Energy influences its periphery subenvironment by the second polarization connection tube opening.

E. A-D is repeated, system, which is continuously realized, does negative work in the first linkage in " move " stroke, in the second linkage dress It sets and does positive work, in " toward dynamic " stroke, do positive work at the first linkage end, do the purpose of negative work at the second linkage end.

For Fig. 2, by control respectively drive substrate two sides come the disengaging of energy transfer medium access apparatus and Toward the disengaging of energy transfer medium access apparatus, so that it may which control carries out come movement, or repeat toward dynamic movement Above-mentioned A-D step, system are continuously realized, in " move " stroke, are done negative work in the first linkage, are done in the second linkage Positive work does positive work at the first linkage end, does the purpose of negative work at the second linkage end in " toward dynamic " stroke.

Obviously, the above embodiments are merely examples for clarifying the description, and does not limit the embodiments.It is right For those of ordinary skill in the art, can also make on the basis of the above description it is other it is various forms of variation or It changes.There is no necessity and possibility to exhaust all the enbodiments.And it is extended from this it is obvious variation or Variation is still in the protection scope of this invention.

Claims (10)

1. a kind of polarization generating means system, which is characterized in that including energy driving device (1), the first linkage (2) and Two linkages (3) are equipped with drive substrate (11) and energy storage medium (12) in the energy driving device (1)；

First linkage (2) includes the first linkage substrate (21), the first linkage dielectric chamber (22), the first polarization connecting tube (23) and it is located at the described first the first linkage acting medium (24) to link in dielectric chamber (22), described first links substrate (21) It is set in first linkage dielectric chamber (22) and forms reciprocating sealed connection with its medial surface, described first Dynamic dielectric chamber (22) are connect with first polarization connecting tube (23), and first polarization connecting tube (23) and described first Dynamic acting medium (24) connection；

Second linkage (3) includes the second linkage substrate (31), the second linkage dielectric chamber (32), the second polarization connecting tube (33) and it is located at the described second the second linkage acting medium (34) to link in dielectric chamber (32), described second links substrate (31) It is set in second linkage dielectric chamber (32) and forms reciprocating sealed connection with its medial surface, described second Dynamic dielectric chamber (32) are connect with second polarization connecting tube (33), and second polarization connecting tube (33) and described second Dynamic acting medium (34) connection；

The two sides of the drive substrate (11) pass through connection with first linkage substrate (21), the second linkage substrate (31) respectively Dynamic connecting rod (4) connection；

The drive substrate (11) is carried out energy transfer device (5) with one and is connect, and comes energy transfer device (5) for driving institute It states drive substrate (11) and squeezes the energy storage medium (12), and drive first linkage substrate (21) and the second linkage base Plate (31) does work respectively, and it is described first polarization connecting tube (23) and second polarization connecting tube (33) at formed alternately it is positive and negative Pressure.

2. a kind of polarization generating means system according to claim 1, which is characterized in that the first linkage acting medium It (24) is identical or different working media with the second linkage acting medium (34).

3. a kind of polarization generating means system according to claim 2, which is characterized in that the first linkage dielectric chamber (22) at least one or more first poles being connected with its internal described first linkage acting medium (24) are equipped with Change connecting tube (23)；Second linkage dielectric chamber (32) is equipped at least one or more second linkages internal with it Second polarization connecting tube (33) that acting medium (34) is connected.

4. a kind of polarization generating means system according to claim 3, which is characterized in that the first polarization described in every connects A control valve (6) are respectively set in adapter tube (23) and the second polarization connecting tube (33).

5. a kind of polarization generating means system according to claim 4, which is characterized in that the first polarization connecting tube (23) and the second polarization connecting tube (33) is in its longitudinal direction gradual change or grade structure changes for caliber.

6. -5 any a kind of polarization generating means system according to claim 1, which is characterized in that the energy driving dress The energy storage medium (12) set in (1) is a spring, and one end of the spring is connect with the drive substrate (11), another Moving cell (13) is held with one and is connect in end.

7. -5 any a kind of polarization generating means system according to claim 1, which is characterized in that the energy driving dress Setting (1) further includes an airtight cavity (14), and the drive substrate (11) is set in the airtight cavity (14), and with its inside Face forms reciprocating sealed connection, the linkage connecting rod (4) through the airtight cavity (14) and with the driving base Plate (11) is fixedly connected；The airtight cavity (14) is divided into two chambers, the energy storage by the drive substrate (11) Medium (12) is respectively arranged in two chambers, and the energy of connection corresponding with two chambers is respectively equipped on the airtight cavity (14) Storage medium import (14a) and energy storage medium outlet (14b)；It is described come energy transfer device (5) include carrying out energy Transfer medium access apparatus (51) and past energy transfer medium access apparatus (52), pass through the energy storage respectively and are situated between Matter import (14a) and energy storage medium outlet (14b) are connected with corresponding chamber.

8. a kind of polarization generating means system according to claim 7, which is characterized in that first linkage (2) First linkage dielectric chamber (22) be an airtight chamber, it is described first linkage substrate (21) will it is described first link dielectric chamber (22) It is divided into medial compartment and lateral compartments, the second linkage dielectric chamber (32) of second linkage (3) is an airtight chamber, Second linkage substrate (31) will described second link dielectric chamber (32) be divided into medial compartment and lateral compartments, described first The medial compartment of linkage (2) is connected with the medial compartment of second linkage (3) by a connecting line (7).

9. a kind of polarization generating means system according to claim 8, which is characterized in that the energy storage medium (12) For gas, storage energy wave or one of solution or other any energy storage fluids.

10. a kind of polarization generating means system according to claim 1, which is characterized in that the drive substrate (11), One linkage substrate (21), the second linkage substrate (31) are piston or diaphragm；What linkage connecting rod (4) or transmitting acted Bracing wire or fascia.