CN210396990U - Energy level difference promotion energy exchange promotion system - Google Patents

Abstract

The utility model discloses an energy level difference promotes energy exchange and promotes system, including originating can storage device, reciprocating mechanism and energy difference generating device, originating can storage device forms the drive with reciprocating mechanism and is connected, energy difference generating device includes a cylinder body, is equipped with a piston in it, and the piston separates the space in the cylinder body into first cavity and second cavity, is equipped with the first opening that communicates with first cavity and the second opening that communicates with the second cavity on the cylinder body; the reciprocating mechanism and the piston form a whole through a connecting rod; the reciprocating mechanism drives the piston to move, and alternating high pressure and low pressure are formed at the first opening and the second opening. The linkage between the reciprocating mechanism and the energy difference generating device is realized through the connecting rod, and in the process of driving the piston in the energy difference generating device to move, alternately available high pressure and low pressure are respectively formed in the first cavity and the second cavity, so that a larger energy level difference is formed, and the increase of the energy level difference is beneficial to improving the efficiency of energy exchange.

Description

Energy level difference promotion energy exchange promotion system

Technical Field

The utility model belongs to the technical field of energy conversion and exchange, in particular to poor promotion energy exchange of energy level promotes system, this system can play the catalytic action of the enzyme in similar chemical reaction in physics to change the local boundary condition of environment, obtain the energy from temperature difference or energy level difference more efficient in the less environment of more effective means, perhaps more effective change that promotes the environment.

Background

It is known that there are many enzymes in the living body, and many chemical reactions which can be generally performed under high temperature and high pressure can be catalyzed under normal temperature and pressure, so that the efficiency of the chemical reactions is improved, and there are many middle and low temperature heat sources in the natural world and in the human production and life process, the temperature difference between the heat source and the heat source is relatively low, because there are only two heat sources, the general heat utilization is performed by using a simple carnot cycle (carnotc cycle) with only two heat sources (one high temperature heat source temperature T1 and one low temperature heat source temperature T2), and according to the efficiency η c of the carnot cycle is 1-T2/T1, it can be seen that the efficiency of the carnot cycle is only related to the thermodynamic temperatures of the two heat sources, if the temperature T1 of the high temperature heat source is higher, the temperature T2 of the low temperature heat source is lower, the efficiency of the carnot cycle is higher, because the high temperature T483 or T2K (-273 c is less than T630K, the low temperature T6335K is less than the natural heat source temperature T1K, and the heat source is still the heat source is used as the heat source, the heat source is still the heat source is less effectively utilized, and the heat source is still the natural heat source is less than the natural heat source temperature T1K, the natural heat source temperature T11K, the natural heat source.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a can improve energy utilization efficiency, solve the slow technical problem of current energy exchange efficiency, for this reason, the utility model provides a poor promotion energy exchange of energy level promotes system.

The adopted technical scheme is as follows:

an energy level difference boost energy exchange facilitation system, an energy initiation storage device in driving connection with the reciprocating mechanism, the energy difference generation device comprising a cylinder having a piston disposed therein, the piston dividing a space within the cylinder into a first chamber and a second chamber, the first and second chambers having a working medium disposed therein, and the cylinder having a first opening in communication with the first chamber and a second opening in communication with the second chamber; the reciprocating mechanism and the piston form a whole through a connecting rod; the reciprocating mechanism drives the piston to move, and high pressure (or high energy state) and low pressure (or low energy state) which are alternated are formed at the first opening and the second opening.

The piston may also be of diaphragm construction.

The linkage may also be a drawstring or fascia that transmits motion.

The system is also provided with a first polarization end and a second polarization end, the first opening is connected with the first polarization end through a first pipeline, and the second opening is connected with the second polarization end through a second pipeline; the first polarization end and the second polarization end are respectively composed of at least one or more branch pipelines which are connected in parallel with the corresponding first pipeline and the second pipeline.

The end of each branch pipeline is provided with a control valve.

The first pipeline and the second pipeline are pipelines with gradually changed inner diameters or gradually changed inner diameters.

The reciprocating mechanism comprises an action cylinder body, a forward moving piston arranged in the action cylinder body and a restoring element for driving the forward moving piston to reset, when the starting energy storage device drives the forward moving piston to move, the restoring element is compressed, the connecting rod drives the piston to move, high pressure (or high energy state) is formed at one opening of the first opening and the second opening, and low pressure (or low energy state) is formed at the other opening.

The restoring element is arranged between the forward moving piston and the bottom of the action cylinder body, and the restoring element is a solid spring, liquid, gas or a mixture of a certain information carrier and an energy carrier.

The starting energy storage device controls the reciprocating piston to reciprocate along the action cylinder body in an electric, pneumatic or hydraulic driving/mechanical transmission mode through an energy driving device.

The working media in the first chamber and the second chamber can be the same working medium or different working media.

The utility model discloses technical scheme has following advantage:

A. the utility model discloses set up originated energy storage device in entire system, reciprocating mechanism and energy difference generating device, originated energy storage device provides the drive energy for reciprocating mechanism, realize the linkage between reciprocating mechanism and energy difference generating device through the connecting rod, in the piston motion process in the drive energy difference generating device, can form alternate high pressure (or high energy state) and low pressure (or low energy state) that can supply to utilize in first cavity and the second cavity respectively, thereby bigger energy level difference has been formed, the increase of energy level difference helps improving energy exchange's efficiency.

B. The utility model receives and transmits the initial energy through the initial energy storage device and stores the initial energy, thereby forming the energy storage device which can control the reciprocating mechanism to complete the reciprocating motion, and respectively and simultaneously form high energy-concentration high voltage and low energy-concentration low voltage at the two ends of the energy difference generating device in the processes of coming motion and going motion, forming higher energy level difference, and further improving the efficiency of energy exchange; the warp the utility model discloses the energy that obtains in the energy exchange process that carries out efficiency promotion can be greater than under the state of the energy of starting, the utility model discloses just can be similar to the enzyme that can carry out catalysis to chemical reaction in the function, can effectively improve the energy exchange efficiency between the relative less two kinds of heat sources of temperature difference in physics to can the wide application in well low temperature heat source utilization field, and extend other energy utilization fields and biochemical research field, will exert huge economy and social value, have very big meaning.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic diagram of the overall structure of the energy level difference boost energy exchange promotion system provided by the present invention.

Description of reference numerals:

1-originating energy storage device

2-reciprocating mechanism

21-actuating cylinder, 22-reciprocating piston, 23-restoring element

3-energy difference generating device

31-cylinder, 32-piston

4-a connecting rod; 5-a first polarization end; 6-second polarization terminal

7-a first pipeline; 8-a second pipeline; 9-control valve; 10-originating energy control gate

20-energy driving device

a-first chamber, a 1-first opening, b-second chamber, b 1-second opening.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, the present invention provides an energy level difference boost energy exchange promotion system, which specifically comprises an initial energy storage device 1, a reciprocating mechanism 2 and an energy difference generation device 3, wherein the initial energy storage device 3 and the reciprocating mechanism 2 form a driving connection through an energy driving device 20, and the energy driving device 20 can be a motor, a pneumatic or hydraulic piston pump, etc. The energy difference generating device 3 includes a cylinder 31, a piston 32 is disposed in the cylinder 31, the piston 32 divides the space in the cylinder 31 into a first chamber a and a second chamber b, working media are disposed in the first chamber a and the second chamber b, the cylinder 31 is provided with a first opening a1 communicated with the first chamber a and a second opening b1 communicated with the second chamber b, and the working media in the first chamber a and the second chamber b are the same phase change working medium or different phase change working media. The reciprocating mechanism 2 and the piston 32 form a whole through a connecting rod 4; the reciprocating mechanism 2 moves the piston 32 to create alternating high pressure (or high energy state) and low pressure (or low energy state) at the first opening a1 and the second opening b 1. The reciprocating mechanism 2 and the initial energy storage device 1 are matched to act on the energy difference generating device 3, so that the rapid energy conversion is realized, and the energy conversion efficiency is greatly improved.

The piston 32 here can also be a diaphragm structure, wherein the rod 4 can also be a pull wire or fascia transmitting the motion. Its function is to transmit drive and isolate it from other parts.

In addition, the present invention preferably further comprises a first polarization end 5 and a second polarization end 6, which are connected to the first polarization end 5 through a first pipeline 7 at a first opening a1, and connected to the second polarization end 6 through a second pipeline 8 at a second opening b 1; the first polarization end 5 and the second polarization end 6 are respectively composed of at least one or more branch pipelines which are connected in parallel with the corresponding first pipeline 7 and the second pipeline 8, and the end part of each branch pipeline is provided with a control valve 9. The control valves 9 are independently arranged, the first pipeline and the first polarization end form an integral body, the first pipeline and the first polarization end can be connected through pipe joint threads, the second pipeline and the second polarization end form an integral body, and the second pipeline and the second polarization end can be connected through pipe joint threads. The first pipeline 7 and the second pipeline 8 adopt pipelines with gradually changed inner diameters or gradually changed inner diameters, and energy conversion is facilitated.

The preferred reciprocating mechanism 2 of the present invention comprises an actuating cylinder 21, a forward moving piston 22 disposed in the actuating cylinder 21, and a restoring element 23 for driving the forward moving piston 22 to reset, wherein the restoring element 23 is further preferably disposed between the forward moving piston 22 and the bottom of the actuating cylinder 21, and the restoring element can be a solid (such as a spring), a liquid (such as a chemical solution that is subjected to an external force to change an energy state) or a gas (such as a gas that can be compressed or is prone to phase change), or a mixture of a certain information carrier and an energy carrier, such as a combination of a DNA information chain and energy contained in certain organisms and fertilized egg cells.

Preferably, a spring structure is adopted, two ends of the spring are respectively and fixedly connected with the bottom of the acting cylinder 21 and the forward piston 22, and two ends of the spring are respectively and fixedly connected with the bottom of the acting cylinder 21 and the forward piston 22.

As shown in fig. 1, when the starting energy storage device 1 drives the forward piston 22 to move downwards, the spring is compressed, the connecting rod 4 drives the piston 32 to move, and high pressure is formed at the first opening a1 and low pressure is formed at the second opening b 1; on the contrary, the link is moved up by the restoring force of the spring, the driving energy is rapidly converted, and a low pressure is formed at the first opening a1 and a high pressure is formed at the second opening b 1.

The starting energy storage device 1 controls the reciprocating motion of the reciprocating piston along the action cylinder 21 through an electric, pneumatic or hydraulic driving/mechanical transmission mode. The initiation energy may be any form of energy drive or variation that causes a change in position of piston 32, such as a motor drive, fluid impulse, temperature change induced expansion or contraction, or even contraction and relaxation of muscles, and so forth.

The specific operation flow is as follows:

(1) the initial energy is prestored in the initial energy storage device;

(2) switching on an initial energy control gate 10, wherein the initial energy control gate is used for controlling energy output in an initial energy storage device, under the action of initial energy, an energy driving device 20 drives a forward piston to move so as to extrude the working medium in an energy difference generating device by the forward piston, the working medium in a second chamber b is extruded into a second polarization end, the energy of the working medium is rapidly condensed to the tail part of the second polarization end, the forward piston performs positive function on the working medium along with the input of the initial energy, the working medium is increased at the tail part of the second polarization end, a branch pipeline adopts the amplification effect of a graded or gradient pipeline, and a high level of dense polarization appears at the tail part of the second polarization end; meanwhile, along with the input of the initial energy, the forward moving piston applies negative work to the working medium in the first chamber a, and the amplification effect of the branch pipeline graded or gradually changed pipeline is added, so that the working medium can be rapidly reduced in the tail part of the first polarization end, and a low energy level of sparse polarization appears.

(3) The starting energy control brake is disconnected, the restoring element releases stored energy to drive the forward moving piston to move forwards, the forward moving piston moves upwards under the resilience action of the spring, the working medium is extruded into the first polarization end, the energy of the working medium is rapidly condensed to the tail part of the first polarization end, the forward moving piston performs positive work on the working medium in the first cavity a along with the release of the stored energy of the restoring element, the working medium can rise in the tail part of the first polarization end, the branch pipeline is added to perform the amplification effect of the graded or graded pipeline, and the tail part of the first polarization end is in a densely-polarized high level; meanwhile, along with the release of the energy stored by the restoring element, the forward moving piston applies negative work to the working medium in the second chamber b, and the amplification effect of the branch pipeline grade change or gradual change pipeline is added, so that the working medium can be rapidly reduced in the tail part of the second polarization end, and a low energy level of polarization dispersion appears.

(4) Repeating the steps 1-3, and alternately generating two opposite conjugate polarization effects at the two tail ends of the energy difference generating device.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (10)

1. A level difference boost energy exchange facilitation system, comprising an initiation energy storage device (1), a reciprocating mechanism (2) and an energy difference generating device (3), wherein the initiation energy storage device (1) is in driving connection with the reciprocating mechanism (2), the energy difference generating device (3) comprises a cylinder (31) provided with a piston (32), the piston (32) divides the space in the cylinder (31) into a first chamber (a) and a second chamber (b), the first chamber (a) and the second chamber (b) are provided with working media, and the cylinder (31) is provided with a first opening (a1) communicated with the first chamber (a) and a second opening (b1) communicated with the second chamber (b); the reciprocating mechanism (2) and the piston (32) form a whole through a connecting rod (4); the reciprocating mechanism (2) drives the piston (32) to move, and high pressure (or high energy state) and low pressure (or low energy state) which are alternated are formed at the first opening (a1) and the second opening (b 1).

2. The energy level difference elevating energy exchange facilitating system of claim 1, wherein said piston (32) may also be a diaphragm structure.

3. The energy level difference elevating energy exchange facilitating system according to claim 1, wherein the link (4) may also be a string or fascia that transmits motion.

4. The energy level difference boost energy exchange facilitation system according to claim 1, wherein a first polarization end (5) and a second polarization end (6) are further provided, wherein the first opening (a1) is connected to the first polarization end (5) through a first pipe (7), and the second opening (b1) is connected to the second polarization end (6) through a second pipe (8); the first polarization end (5) and the second polarization end (6) are respectively composed of at least one or more branch pipelines which are connected in parallel with the corresponding first pipeline (7) and the second pipeline (8).

5. The energy level difference elevating energy exchange facilitating system as claimed in claim 4, wherein a control valve (9) is provided at an end of each branch pipe.

6. The system according to claim 5, wherein the first and second pipes (7, 8) are pipes with gradually changed or graded inner diameters.

7. The energy level difference lift energy exchange promotion system according to any one of claims 1-6, wherein the reciprocating mechanism (2) comprises a motion cylinder (21), a forward piston (22) disposed in the motion cylinder (21), and a restoring element (23) for restoring the forward piston (22), when the initial energy storage device (1) drives the forward piston (22) to move, the restoring element (23) compresses, the connecting rod (4) drives the piston (32) to move, and a high pressure (or high energy state) is formed at one of the first opening (a1) and the second opening (b1), and a low pressure (or low energy state) is formed at the other opening.

8. The energy level difference elevating energy exchange facilitating system as claimed in claim 7, wherein said restoring element (23) is disposed between said forward piston (22) and the bottom of the actuating cylinder (21), said restoring element being a solid spring, a liquid, a gas or a mixture of some kind of information carrier and energy carrier.

9. Energy level difference lifting energy exchange facilitation system according to claim 8, characterized in that the initiation energy storage device (1) controls the reciprocating piston (22) along the action cylinder (21) in an electric, pneumatic or hydraulic drive \ mechanical transmission manner through an energy driving device (20).

10. The energy level difference boost energy exchange facilitation system according to claim 1, wherein the working media in the first chamber (a) and the second chamber (b) may be the same working medium or different working media.

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