KR101529099B1 - Energy converting apparatus for material having repulsive force and attractive force - Google Patents

Abstract

There is provided an energy conversion device for a material having a repulsive force and attractive force capable of maximizing a performance coefficient indicating the effectiveness of an energy conversion device for converting a magnetic force into mechanical energy by using a compression elastic body. The energy conversion device of the material having the repulsive force and the attracting force includes a fixed guide plate, a movable plate, a fixed plate, a permanent magnet moving body and a pressing elastic body, and applies a minute force to the permanent magnet moving body to remove the attractive force, And the magnetic force of the permanent magnets is converted into kinetic energy by moving along the fixed guide plate.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an energy conversion device for a material having a repulsive force and a human force,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an energy conversion device, and more particularly, to an energy conversion device that can be used as a drive energy required for operation of a rotary machine such as a compressor, an engine, and the like and operation of a reciprocating machine such as a press, The coefficient of performance (Ein / Eout) given by the ratio of the input energy Ein to the output energy Eout when converting the magnetic force of a material (e.g., a permanent magnet) Performance (COP) in a material having a repulsive force and a manpower.

Various energy converters used in everyday life determine both sides of the energy conversion device by the ratio (Ein / Eout) of the input energy Ein and the generated output energy Eout required for the operation. That is, the efficiency of the energy conversion device and the coefficient of performance (COP) corresponding to the input energy Ein and the output energy Eout may be representative indicators of the energy conversion device. However, the concept of efficiency and performance factor is quite different.

Specifically, this efficiency indicates the degree of conversion of the energy possessed by the energy resource itself to another type of energy, which is always less than 100% since the mechanical loss occurs in the energy conversion process. For example, in the case of a heat engine, the amount of heat supplied to the energy conversion due to incomplete combustion in the process of converting the heat amount of the fossil energy into mechanical energy, mechanical loss due to the friction occurring in the energy conversion process, . ≪ / RTI >

This coefficient of performance is an indicator of the degree to which potential energy existing in the environment is taken as effective energy. It is the ratio of the amount of energy supplied to the energy required for operation of the device to obtain the potential energy And is always greater than 100%. For example, in the case of a heat pump that takes heat energy from a natural system using a refrigeration cycle, the amount of heat that takes heat energy from a heat source and supplies heat to the air conditioning space during the condensation process is greater than the operating power supplied to the compressor for operation of the refrigeration cycle .

From this point of view, for example, the "permanent magnet" is a typical material having attraction and repulsion, and therefore, attraction force (hereinafter referred to as "attraction force") caused by mutual magnetic force generated by the arrangement method of the stimulus of the "permanent magnet" (Hereinafter referred to as "repulsive force") are mechanical energies generated by the arrangement of the "permanent magnets ", and by using an energy conversion device capable of converting such magnetic force into mechanical energy, It can be supplied with a necessary driving force. That is, attraction and repulsion are potential mechanical energies possessed by a "permanent magnet", and energy required to drive an energy conversion device (hereinafter referred to as "external work") must be supplied from outside in order to obtain mechanical energy. At this time, in order for the mechanical energy obtained through the energy conversion apparatus to be effective, the coefficient of performance, which is the ratio of the mechanical energy conversion amount to the external work, must be large.

Today's industrial society developed on the basis of fossil fuels faces the problem of environmental destruction represented by global warming and resource depletion. In order to solve these problems, we have been preparing alternatives centering on the development of alternative resources and energy efficiency improvement. From the viewpoint of improving energy use efficiency, it is necessary to maximize the efficiency of energy conversion equipment. However, in this case, since the fossil fuel must be continuously used, there is a limit to solve the problem of resource depletion.

Recently, the utilization of various unused edge resources, which are potential energy resources that are almost infinite in the vicinity of resource saving and environmental pollution prevention, attracts great attention. The use of such unused energy resources is divided into the conversion of energy to another energy form using an energy conversion device and the conversion of the energy into the usable state while maintaining the same form as the potential energy.

In the latter case of converting the potential energy to the usable state while maintaining the same form, the energy required for operation of the device must be externally supplied (hereinafter referred to as "external energy"). At this time, it is most important to maximize the ratio of the conversion amount of the effective energy to the external energy (performance coefficient) by operating the apparatus while minimizing the supply amount of the external energy. That is, in the case of a heat pump which is most widely used as a thermal conversion device that uses unused thermal energy as a heat source and supplies it as effective energy, it is most important to minimize the operation power of the device and maximize the performance coefficient.

Korean Patent No. 10-1112772 filed on Dec. 19, 2008, entitled "Apparatus for Generating Impulse Using Immediate Back-Up Force of Permanent Magnet for Energy Supply for Continuous Motion and Power Generating Device Using It " Korean Patent Publication No. 2010-84791 (published on July 28, 2010), entitled "Method of Obtaining Infinite Kinetic Energy Using a Rotating Permanent Magnet and Pulley Principle" Korean Patent Publication No. 2010-122046 (published on Nov. 19, 2010), entitled "Power Engines Using Rotating Discs & Korean Patent Publication No. 2000-58534 (published on October 5, 2000), entitled "Method and apparatus for obtaining power using magnetic force of permanent magnet" Korean Patent Publication No. 2001-26946 (published on April 6, 2001), entitled "Device for generating energy by magnetic force of permanent magnet & Korean Unexamined Patent Publication No. 2005-90760 (published September 14, 2005), entitled "Energy Conversion Device Using Permanent Magnets" Korean Patent Publication No. 1998-34080 (Publication Date: August 5, 1998), entitled "Energy Conversion Device Using Permanent Magnets" Korean Registered Patent No. 10-757634 filed on Apr. 14, 2006, entitled "Polarity automatic conversion electromagnet based on external electromotive force"

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide an energy conversion device for converting magnetic force into mechanical energy using a compression elastic body, And to provide an energy conversion device of the material.

)을 제거하여 상기 가동판이 척력(

)에 의해 상기 고정 안내판을 따라 이동함으로써 상기 영구자석들(MM1, MM2, MM3, MF1, MF2, MF3)의 자기력이 역학적 에너지로 변환되는 것을 특징으로 한다.According to an aspect of the present invention, there is provided an energy conversion device for a material having repulsive force and attractive force according to the present invention, comprising: a fixed guide plate serving as a rail through which the movable plate can move; A movable plate moving along the fixed guide plate and having a first attraction-generating permanent magnet MM1 for the movable plate, a repulsive force generating permanent magnet MM2 for the movable plate, and a second attracting permanent magnet MM3 for the movable plate fixed to the side; Wherein the first attraction force generating permanent magnet MM1 for the movable plate, the repulsive force generating permanent magnet MM2 for the movable plate and the second attracting permanent magnet MM3 for the movable plate are fixed to the fixed guide plate in parallel with the movable plate, A fixed plate provided with a first attracting force generating permanent magnet MF1 for a fixed plate, a repulsive force generating permanent magnet MF2 for a fixed plate, and a second attracting permanent magnet MF3 for a fixed plate; A attracting permanent magnet moving body having a first attracting permanent magnet MF1 for the fixed plate and a second attracting permanent magnet MF3 for the fixed plate moving through the fixed plate on one side; And a compression installed between the first attracting permanent magnet MF1 for the fixed plate and the second attracting permanent magnet MF3 for the fixed plate and the attracting permanent magnet moving body to provide an elastic force to the attracting permanent magnet moving body, Wherein the first attraction generating permanent magnet MM1 for the movable plate, the first attraction generating permanent magnet MF1 for the fixed plate, the second attraction generating permanent magnet MM3 and the second attraction generating permanent magnet MF3 And the repulsive force is generated between the repulsive force generating permanent magnet MM2 for the movable plate and the repulsive force generating permanent magnet MF2 for the fixed plate and the attraction force at this time is stored in the compressed elastic bodies 600a and 600b A force Fo is applied to the permanent magnet moving body in a state where the attraction force

) To remove the movable plate from the repulsive force (

The magnetic forces of the permanent magnets MM1, MM2, MM3, MF1, MF2 and MF3 are converted into kinetic energy by moving along the fixed guide plate.

)이 발생하고, 상기 가동판용 척력발생 영구자석(MM2)과 상기 고정판용 척력발생 영구자석(MF2) 사이에 척력(

)이 발생하며, 상기 영구자석 이동체에 힘(Fo)을 가하여 상기 인력(

)을 제거할 수 있다.Here, when external force is applied to bring the movable plate closer to the stationary plate, a gap between the first attraction-generating permanent magnet MM1 for the movable plate and the first attraction-generating permanent magnet MF1 for the stationary plate, An attracting force (between the permanent magnet MM3 and the second attracting permanent magnet MF3 for the fixed plate

) Between the permanent magnet (MM2) for repulsion force for the movable plate and the repulsive force generating permanent magnet (MF2) for the fixed plate

, And a force Fo is applied to the permanent magnet moving body,

Can be removed.

)과 이동거리(W2)에 의해 상기 척력(

)에 의해 발생한 외부 에너지(Eout)가 W2·

로 주어지고, 상기 영구자석 이동체에 가해진 외부 공급 힘(Fo)과 이동거리(W1)에 의해 상기 인력(

)을 제거하기 위해 외부에서 공급한 에너지(Ein)가 W1·Fo로 주어지며, 이때, 입력 에너지(Ein)에 대한 출력 에너지(Eout)의 비로 주어지는 성능계수(Coefficient Of Performance: COP)는 (W2·

)/(W1·Fo)가 되는 것을 특징으로 한다.Here, the repulsive force applied to the movable plate

And the moving distance W2,

) Of the external energy Eout is W2 ·

By the external supply force Fo applied to the permanent magnet moving body and the moving distance W1,

The coefficient of performance (COP) given by the ratio of the output energy Eout to the input energy Ein is expressed by W2 · F0, ·

) / (W1 占 F o).

delete

)이 상기 영구자석 이동체에 작용할 때 발생하는 반력을 흡수하여 저장하는 것을 특징으로 한다.Herein, the compressive elastic body is an elastic body

) Absorbs and stores the reaction force generated when the permanent magnet moving body acts on the permanent magnet moving body.

)보다 크고, 상기 인력(

)에 의해 상기 압축 탄성체의 이동거리가 변형되면서 상기 가동판 및 상기 고정판 사이에 상호작용하는 힘의 평형을 이루는 지점에서 상기 가동판이 정지하는 것을 특징으로 한다.Here, the capacity of the compressed elastic body is determined by the attraction force

), And the attraction force (

The movable plate is stopped at a point of equilibrium of a force acting between the movable plate and the fixed plate while the moving distance of the compressive elastic body is deformed by the movable plate.

Here, in order to generate a repulsive force between the movable plate repulsive force generating permanent magnet MM2 and the fixed plate repulsive force generating permanent magnet MF2, the first attraction generating permanent magnet MM1 and the first attraction force generating permanent magnet for fixed plate MF1), the second attracting permanent magnet (MM3) and the second attracting permanent magnet (MF3) for the fixed plate are used, thereby minimizing the external supply energy for repulsive force generation.

The energy conversion device of the material having the repulsive force and the attracting force according to the present invention is characterized in that the first attraction force generating permanent magnet MF1 for the fixed plate and the second attraction force generating permanent magnet MF3 for the fixed plate can be moved through the fixed plate And may further include a permanent magnet holder formed on the fixed plate.

) 및 상기 가동판용 제2 인력발생 영구자석(MM3)과 상기 고정판용 제2 인력발생 영구자석(MF3) 상호간에 작용하는 인력(

)의 합(

)은 상기 가동판용 척력발생 영구자석(MM2)과 상기 고정판용 척력발생 영구자석(MF2) 상호간에 작용하는 척력(

)보다 크게 함(

>

>

)으로써 상기 가동판이 정지 상태를 유지할 수 있을 정도의 준평형 상태를 유지하고, 상기 인력(

)을 상기 압축 탄성체에 각각 저장함으로써 상기 인력(

) 제거에 필요한 외부 공급 에너지(Ein)를 최소화하는 것을 특징으로 한다.Here, the attraction force acting between the first attraction-generating permanent magnet MM1 for the movable plate and the first attraction-generating permanent magnet MF1 for the fixed plate

) And the attraction force acting between the second attraction-generating permanent magnet (MM3) for the movable plate and the second attraction-generating permanent magnet (MF3) for the fixed plate

)

Is a repulsive force acting between the repulsive force generating permanent magnet MM2 for the movable plate and the repulsive force generating permanent magnet MF2 for the fixed plate

)

>

>

) To maintain the quasi-equilibrium state to such an extent that the movable plate can maintain the stop state, and the attraction force

) Is stored in the compression elastic body,

(Ein) required to remove the external supply energy Ein.

) 발생에 따른 상기 가동판의 이동에 대응하여 구동되는 구동장치를 추가로 포함하고, 상기 구동장치는 회전운동기기를 구동하거나 왕복운동기기를 구동하는 것을 특징으로 한다.The energy conversion device of the material having the repulsive force and the attractive force according to the present invention is connected to the movable plate 200,

And a driving device that is driven in response to the movement of the movable plate according to occurrence of the movable plate, wherein the driving device drives the rotary motion device or the reciprocating motion device.

According to the present invention, the performance coefficient (given by the ratio of the input energy Ein to the output energy Eout (Ein / Eout)) indicating the effectiveness of the energy conversion device for converting magnetic force into mechanical energy is maximized Thus, it is possible to efficiently acquire the drive source necessary for operation of various machines such as an engine, a hover, and the like.

1 is a diagram showing an initial state in which a permanent magnet generating permanent magnet is fixed to a rigid body and the movable plate is stopped in an energy conversion device of a material having repulsive force and attractive force.
Fig. 2 is a diagram showing a state in which a permanent magnet generating permanent magnet is fixed to a rigid body and a reaction force acts on the rigid body in the energy conversion device of the material having repulsive force and attractive force.
FIG. 3 is a perspective view of a mechanical energy conversion device of a material having repulsive force and attractive force according to an embodiment of the present invention, in which a compressive elastic body for storing a reaction force is inserted between a fixed plate and a holder of a permanent magnet generating permanent magnet, Fig. 7 is a view showing an initial state in which the plate is stopped.
4 is a diagram showing a quasi-equilibrium state in which a reaction force is stored in a compression elastic body in an energy conversion apparatus of a material having a repulsive force and attractive force according to an embodiment of the present invention.
FIG. 5 is a view showing a state in which a mechanical energy conversion device of a material having a repulsive force and an attractive force according to an embodiment of the present invention removes the excess attraction force stored in a compression elastic body by applying external energy.
FIG. 6 is a view for specifically explaining the attraction force removal state shown in FIG. 5; FIG.
7 is a view showing a state in which a movable plate is moved by a repulsive force in an energy conversion device of a material having a repulsive force and attractive force according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

First, the thermal energy and electric energy that are needed in everyday life are mostly derived from fossil fuels, nuclear energy or renewable energy. However, the problem of global environmental pollution caused by pollutants generated in the process of energy conversion and utilization, The need for securing alternative resources is increasing due to irregularity of occurrence. From the viewpoint of energy utilization efficiency, the heat pipe remains at a very low temperature of about 40%, and the performance coefficient of the heat pump, which is widely used as an energy saving device that effectively recovers unused energy existing in the vicinity, It is about 4-8 degrees.

The energy conversion device of the material having the repulsive force and the attractive force according to the embodiment of the present invention is a device for converting the energy of the magnetic force into the energy of the magnetic force (COP), which is the ratio of the amount of energy conversion to the external work required for driving, can be obtained several tens times or more (theoretically, several thousand times or more).

In other words, the ultimate goal of all energy converters on earth today is to obtain maximum effective energy. In other words, the energy conversion device can be roughly classified into a method of converting the energy generated by the chemical reaction of the energy source itself and the potential energy into the effective energy form. This energy conversion can not take place on its own, and in any form, the energy required for conversion must be supplied from the outside.

Here, efficiency index and coefficient of performance (COP) are representative indexes representing the degree of energy conversion. Here, the efficiency is represented by the ratio of the total amount of energy converted into the form of effective energy by the energy conversion device with respect to the total amount of energy of the energy source supplied to the energy conversion device (for example, an internal combustion engine) The coefficient of performance (COP) is a measure of the amount of potential energy taken from external sources of energy when external energy is supplied to the system that holds potential energy available (For example, a heat pump). At this time, the efficiency is always smaller than 1, and the performance coefficient is larger than 1.

The energy conversion device of the material having the repulsive force and the attractive force according to the embodiment of the present invention is for securing the performance coefficient of the semi-infinite by maximizing the performance coefficient by the combination of the materials having the repulsive force and the attractive force, And repulsive force and manpower depending on the combination of materials having repulsive force and manpower. However, in the embodiment of the present invention, the permanent magnet will be mainly described.

It is well known that when these permanent magnets are faced to each other, repulsive force occurs between the poles, and attraction occurs between the poles. In other words, there is already a potential for mechanical energy between the permanent magnets.

When these permanent magnets are compared with the internal combustion engine, in the case of the internal combustion engine, the thermal energy generated by the combustion of the fuel is converted into the mechanical energy to utilize the explosive force to cause the expansion process, and in the combination of the permanent magnets, the repulsive force corresponds to the explosive force can do. Therefore, in order to narrow the distance between the permanent magnets facing the same poles, and to generate a repulsive force between the permanent magnets, external energy must be supplied from the outside (for example, compression process of the internal combustion engine) The energy is equal to the repulsive force corresponding to that distance. Therefore, a method of minimizing the external energy supply required to generate this repulsive force should be secured.

Hereinafter, as a comparative example, it is assumed that a reaction force against an attractive force generated between mutually in an energy conversion device of a material having a repulsive force and attractive force (hereinafter, a reaction force against a pulling force acting to generate a repulsive force) 1 and Fig. 2, and an energy conversion device of a material having a repulsive force and attractive force according to an embodiment of the present invention will be described with reference to Figs. 3 to 7. Fig.

[When the permanent magnet generating the attraction is fixed to the rigid body (comparative example)]

Fig. 1 is a view showing an initial state in which a permanent magnet generating permanent magnet is fixed to a rigid body in an energy conversion device having a repulsive force and an attractive force, And the resulting permanent magnet is fixed to the rigid body and the reaction force acts on the rigid body.

Referring to FIGS. 1 and 2, in the case of an energy conversion device in which a permanent magnet generating permanent magnet is fixed to a rigid body, a movable plate 20 (see FIG. 1) capable of freely moving between two fixed guide plates 10a, And a fixing plate 40 whose sides are fixed by the two fixing guide plates 10a and 10b. At this time, moving wheels 30a and 30b are provided on both sides of the movable plate 20, and the two fixed guide plates 10a and 10b are installed in a rail shape, and the moving wheels 30a and 30b The movable plate 20 can freely move between the two fixed guide plates 10a and 10b.

1, the movable plate 20 and the fixed plate 40 are disposed so as to face each other, and a first attraction generating permanent magnet MM1 for the movable plate, A first attracting force generating permanent magnet MM2 for the movable plate and a second attracting permanent magnet MM3 for the movable plate are disposed on the side of the fixed plate 40. A first attraction force generating permanent magnet MF1 for the fixed plate, Generating permanent magnet MMF2 and the second attracting permanent magnet MF3 for the fixed plate are arranged.

At this time, the first attracting permanent magnet MM1 for the movable plate and the first attracting permanent magnet MF1 for the fixed plate are opposed to each other to generate attractive force, and the repulsive force generating permanent magnets MM2, The repulsive force generating permanent magnets MF2 for the fixed plate are opposed to each other so that a repulsive force is generated, and the second attracting permanent magnet MM3 for the movable plate and the second attracting permanent magnet MF3 for the fixed plate are attracted The opposing poles are opposite to each other to occur.

)이 작용하고, 또한, 상기 가동판용 척력발생 영구자석(MM2) 및 상기 고정판용 척력발생 영구자석(MF2) 상호간에는 척력(

)이 작용하게 된다. 예를 들면,

>

>

의 관계가 있다고 가정하면, 도 2에 도시된 바와 같이, 이들 상호간에 작용하는 힘의 평형관계가 이루어지는 준평형 상태 위치에서 상기 가동판(20)은 정지 상태를 유지한다.Specifically, the first attraction force generating permanent magnet MM1 for the movable plate and the first attraction force generating permanent magnet MF1 for the fixed plate, and between the second attraction force generating permanent magnet MM3 for the movable plate and the second attraction force for the fixed plate The generated permanent magnets (MF3) have the same attraction force

, And the repulsive force generating permanent magnet (MM2) for the movable plate and the repulsive force generating permanent magnet (MF2) for the fixed plate act

). For example,

>

>

, The movable plate 20 maintains a stationary state at a quasi-equilibrium position where an equilibrium relationship between forces acting therebetween is established, as shown in Fig.

)에 대응하는 동일한 크기의 반력이 각각 발생한다. 또한, 상기 고정판용 척력발생 영구자석(MF2)이 고정판(40)의 설치된 접촉면에는 척력(

)에 대응하는 동일한 크기의 반력이 발생한다. 이러한 역학적인 관계에서 상기 가동판(20)을 척력(

)에 의해서 좌측으로 이동하도록 하기 위해서는 인력(

)을 제거해주어야 하는데, 이를 위해서는 외부로부터 상기 인력(

)과 동일한 방향으로 이보다 큰 힘(C)을 가해야 한다. 이때, 필요한 힘(C)은 상기 인력(

)보다 크고, 상기 인력(

)과 동일한 방향이 된다. 다시 말하면, 인력발생 영구자석이 강성체에 고정된 에너지 변환장치의 경우, 척력(

)을 이용하여 유효한 에너지를 얻을 수 없다는 문제점이 발생한다.At this time, on the contact surface of the fixed plate 40 provided with the first attracting permanent magnet MF1 for the fixed plate and the second attracting permanent magnet MF3 for fixed plate,

Respectively, are generated. The repulsive force generating permanent magnet MF2 for the fixed plate is provided with a repulsive force

The reaction force of the same magnitude corresponding to the magnitude of the reaction force is generated. In this mechanical relationship, the movable plate 20 is urged by a repulsive force

In order to move to the left side,

In order to do this, it is necessary to remove the attraction force

(C) greater than the force in the same direction. At this time, the required force (C)

), And the attraction force (

). In other words, in the case of an energy conversion device in which a permanent magnet generating permanent magnet is fixed to a rigid body,

It is impossible to obtain effective energy.

)을 유효하게 이용하기 위해서는 외부에서 가하는 힘(C)이 상기 인력(

)보다 작아야 하며, 이를 구현한 본 발명의 실시예에 따른 척력과 인력을 보유한 소재의 에너지 변환장치를 도 3 내지 도 7을 참조하여 설명하기로 한다.
That is,

In order to effectively use the force (C) externally applied to the workpiece

The energy conversion device of the material having repulsive force and attractive force according to the embodiment of the present invention will be described with reference to FIG. 3 to FIG. 7. FIG.

[Energy conversion device of material having repulsive force and manpower (example)]

FIG. 3 is a perspective view of a mechanical energy conversion device of a material having repulsive force and attractive force according to an embodiment of the present invention, in which a compressive elastic body for storing a reaction force is inserted between a fixed plate and a holder of a permanent magnet generating permanent magnet, FIG. 4 is a diagram showing a semi-equilibrium state in which a reaction force is stored in a compression elastic body in an energy conversion apparatus of a material having a repulsive force and attractive force according to an embodiment of the present invention. FIG. FIG. 6 is a view showing a state in which a mechanical energy conversion device of a material having a repulsive force and an attractive force according to an embodiment of the present invention, FIG. 7 is a view for explaining the energy of a material having repulsive force and attractive force according to an embodiment of the present invention A diagram of the movable plate is moved state by the repulsive force from the ring device.

3 to 7, an energy conversion device for a material having a repulsive force and attractive force according to an embodiment of the present invention includes fixed guide plates 100a and 100b, a movable plate 200, moving wheels 300a and 300b, A fixed plate 400, permanent magnets 500a and 500b, and compressible elastic bodies 600a and 600b.

The fixing guide plates 100a and 100b serve as rails on which the movable plate 200 can move and fix both side surfaces of the fixing plate 400. [

The movable plate 200 moves along the fixed guide plates 100a and 100b and the first attraction generating permanent magnet MM1 for the movable plate, the repulsive force generating permanent magnet MM2 for the movable plate, and the second attraction generating permanent magnet MM3).

The moving wheels 300a and 300b are installed on both sides of the movable plate 200 so that the movable plate 200 can move along the fixed guide plates 100a and 100b.

The stationary plate 400 is fixed to the stationary guide plates 100a and 100b in parallel with the movable plate 200 and the first attraction generating permanent magnet MM1 for the movable plate, the repulsive force generating permanent magnet MM2 for the movable plate, The first attraction force generating permanent magnet MF1 for the fixed plate, the repulsive force generating permanent magnet MF2 for the fixed plate and the second attraction force generating permanent magnet MF3 for the fixed plate, which face the second attraction force generating permanent magnet MM3 for the movable plate, Respectively. Here, the fixed plate 400 is provided with a permanent magnet holder 410 (not shown) so that the first attracting permanent magnet MF1 for the fixed plate and the second attracting permanent magnet MF3 for the fixed plate can move through the fixed plate 400 Is formed.

Each of the attracting permanent magnet moving bodies 500a and 500b includes a first attracting force generating permanent magnet MF1 for the fixed plate and a second attracting force generating permanent magnet MF3 for the fixed plate moving through the fixed plate 400, Respectively.

)이 상기 영구자석 이동체(500a, 500b)에 작용할 때 발생하는 반력을 흡수하여 저장하게 된다. 또한, 상기 압축 탄성체(600a, 600b)의 용량은 상기 인력(

)보다 크고, 상기 인력(

)에 의해 상기 압축 탄성체(600a, 600b)의 이동거리가 변형되면서 상기 가동판(200) 및 상기 고정판(400) 사이에 상호작용하는 힘의 평형을 이루는 지점에서 상기 가동판(200)이 정지하게 된다.The first and second force generating permanent magnets MF1 and MF3 for the fixed plate and the fixed plate for providing the elastic force to the attracting permanent magnet moving bodies 500a and 500b and the pressing elastic bodies 600a and 600b, And are respectively installed between the attracting permanent magnet moving bodies 500a and 500b. Here, the compressive elastic bodies 600a,

Is applied to the permanent magnet moving bodies 500a and 500b to absorb and store the reaction force. Further, the capacity of the compressive elastic bodies 600a and 600b is determined by the attraction force (

), And the attraction force (

The moving distance of the compressive elastic bodies 600a and 600b is deformed by the movable plate 200 and the movable plate 200 is stopped at a point of equilibrium of forces acting between the movable plate 200 and the fixed plate 400 do.

)을 제거하여 상기 가동판(200)이 척력(

)에 의해 상기 고정 안내판(100a, 100b)을 따라 이동함으로써 상기 영구자석들(MM1, MM2, MM3, MF1, MF2, MF3)의 자기력이 역학적 에너지로 변환될 수 있다. 따라서 상기 가동판용 척력발생 영구자석(MM2)과 고정판용 척력발생 영구자석(MF2) 상호간에 척력을 발생시키기 위하여, 상기 제1 인력발생 영구자석(MM1)과 고정판용 제1 인력발생 영구자석(MF1), 제2 인력발생 영구자석(MM3)과 고정판용 제2 인력발생 영구자석(MF3)에 의한 인력을 사용함으로써 척력발생용 외부 공급에너지를 최소화할 수 있다.Accordingly, the first attraction-generating permanent magnet MM1 for the movable plate, the first attraction-generating permanent magnet MF1 for the fixed plate, the second attraction-generating permanent magnet MM3 and the second attraction-generating permanent magnet MF3 for the fixed plate A repulsive force is generated between the repulsive force generating permanent magnet MM2 for the movable plate and the repulsive force generating permanent magnet MF2 for the fixed plate and the force is stored in the compressive elastic bodies 600a and 600b A force Fo is applied to the permanent magnet moving bodies 500a and 500b,

) Is removed so that the movable plate (200)

The magnetic force of the permanent magnets MM1, MM2, MM3, MF1, MF2, MF3 can be converted into kinetic energy by moving along the fixed guide plates 100a, 100b. Therefore, in order to generate a repulsive force between the repulsive force generating permanent magnet MM2 for the movable plate and the repulsive force generating permanent magnet MF2 for the fixed plate, the first attraction generating permanent magnet MM1 and the first attraction force generating permanent magnet MF1 ), The second attracting permanent magnet (MM3), and the second attracting permanent magnet (MF3) for the stationary plate, the external supply energy for repulsive force generation can be minimized.

)이 발생하고, 상기 가동판용 척력발생 영구자석(MM2)과 상기 고정판용 척력발생 영구자석(MF2) 사이에 척력(

)이 발생하며, 상기 영구자석 이동체(500a, 500b)에 힘(Fo)을 가하여 상기 인력(

)을 제거하게 된다.Specifically, when the movable plate 200 is brought close to the stationary plate 400 by applying external energy, a gap between the first attraction-generating permanent magnet MM1 for the movable plate and the first attraction-generating permanent magnet MF1 for the stationary plate, An attraction force between the second attracting permanent magnet MM3 for the movable plate and the second attracting permanent magnet MF3 for the stationary plate

) Between the permanent magnet (MM2) for repulsion force for the movable plate and the repulsive force generating permanent magnet (MF2) for the fixed plate

And a force Fo is applied to the permanent magnet moving bodies 500a and 500b,

).

)과 이동거리(W2)에 의해 상기 척력(

)에 의해 발생한 외부 에너지(Eout)가 W2·

로 주어지고, 상기 인력발생 영구자석 이동체(500a, 500b)에 가해진 외부 공급 힘(Fo)과 이동거리(W1)에 의해 상기 인력(

)을 제거하기 위해 외부에서 공급한 에너지(Ein)가 W1·Fo로 주어지며, 이때, 입력 에너지(Ein)에 대한 출력 에너지(Eout)의 비로 주어지는 성능계수(Coefficient Of Performance: COP)는 (W2·

)/(W1·Fo)가 될 수 있다. 이때, 상기 인력발생 영구자석 이동체(500a, 500b)에 가해진 외부 공급 힘(Fo)이 적을수록 상기 성능계수(COP)가 거의 무한한 큰 값(≒∞)인 준무한대가 된다.The repulsive force applied to the movable plate 200

And the moving distance W2,

) Of the external energy Eout is W2 ·

And by the external supply force Fo applied to the attracting permanent magnet moving bodies 500a and 500b and the moving distance W1,

The coefficient of performance (COP) given by the ratio of the output energy Eout to the input energy Ein is expressed by W2 · F0, ·

) / (W1 占 F o). At this time, as the external supply force Fo applied to the attracting permanent magnet moving bodies 500a and 500b is smaller, the performance coefficient COP becomes a quasi-infinite value which is almost a infinite value (nearly?).

) 및 상기 가동판용 제2 인력발생 영구자석(MM3)과 상기 고정판용 제2 인력발생 영구자석(MF3) 상호간에 작용하는 인력(

)의 합(

)은 상기 가동판용 척력발생 영구자석(MM2)과 상기 고정판용 척력발생 영구자석(MF2) 상호간에 작용하는 척력(

)보다 크게 함(

>

>

)으로써 상기 가동판(200)이 정지 상태를 유지할 수 있을 정도의 준평형 상태를 유지하고, 상기 인력(

)을 상기 압축 탄성체(600a, 600b)에 각각 저장함으로써 상기 인력(

) 제거에 필요한 외부 공급 에너지(Ein)를 최소화할 수 있다.7, the attraction force acting between the first attraction-generating permanent magnet MM1 for the movable plate and the first attraction-generating permanent magnet MF1 for the fixed plate

) And the attraction force acting between the second attraction-generating permanent magnet (MM3) for the movable plate and the second attraction-generating permanent magnet (MF3) for the fixed plate

)

Is a repulsive force acting between the repulsive force generating permanent magnet MM2 for the movable plate and the repulsive force generating permanent magnet MF2 for the fixed plate

)

>

>

) To maintain a quasi-equilibrium state such that the movable plate (200) can be kept stationary, and the attracting force

(600a, 600b), respectively, so that the attraction force

), The external supply energy Ein required for the removal can be minimized.

)에 대한 반력을 저장할 수 있는 압축 탄성체(600a, 600b)를 삽입한 것이다. 여기서, 압축 탄성체(600a, 600b)는 압축 스프링이거나 또는 영구자석의 조합일 수 있지만, 이에 국한되는 것은 아니다.3, the energy conversion device of the material having the repulsive force and the attractive force according to the embodiment of the present invention differs from that of FIG. 1 in that the fixed plate 400 and the first attraction force for the fixed plate Between the generated permanent magnets MF1 and between the fixed plate 400 and the second attracting permanent magnets MF3 for the fixed plate

The elastic bodies 600a and 600b capable of storing a reaction force against the elastic bodies 600a and 600b are inserted. Here, the compressible elastomers 600a, 600b may be compression springs or a combination of permanent magnets, but are not limited thereto.

)을 제1 인력(

)이라고 하면, 상기 제1 인력(

)을 충분히 흡수할 수 있는 변위를 갖는 압축 탄성체(600a, 600b)인 경우, 상기 제1 인력(

)에 대응하는 제2 인력(

)에 해당하는 변위가 발생하면서 제2 인력(

)은 상기 탄성체(600a, 600b)에 저장되고, 이들 제1 인력(

) 및 제2 인력(

)이 평형을 이룬 위치에서 상기 탄성체(500a, 500b)가 정지하게 된다.Here, as shown in Fig. 4,

) To the first workforce

), The first attraction force

(600a, 600b) having a displacement capable of sufficiently absorbing the first attraction force

) Corresponding to the second attraction force

) Is generated and the second attraction force (

Are stored in the elastic bodies 600a and 600b, and the first attraction force

) And the second attraction force

The elastic bodies 500a and 500b are stopped at a position where they are balanced.

=

가 된다. 이러한 힘의 균형이 이루어진 상태에서, 도 5 및 도 6에 도시된 바와 같이, 매우 작은 힘(C')를 작용시킴으로써, 상기 가동판용 제1 인력발생 영구자석(MM1) 및 상기 고정판용 제1 인력발생 영구자석(MF1)은 각각 격리시킬 수 있다.When these relations are expressed in mathematical formulas

=

. 5 and 6, by operating a very small force C ', the first attraction force generating permanent magnet MM1 for the movable plate and the first attraction force for the fixed plate MM1, The generated permanent magnets MF1 can be isolated from each other.

Generally speaking, the first attraction force for the movable plate MF1 and the second attraction force MF3 for the fixed plate MF1 are obtained by using an extremely small force C 'for each of the first attraction force generating permanent magnet MF1 for the fixed plate and the second attraction force generating permanent magnet MF3 for the fixed plate Generating permanent magnet MM1 for the movable plate and the permanent magnets MF1 and MF2 for the fixed plate are separated from each other and the permanent magnets MM1 and MF1 for the fixed plate are separated from each other, Can be separated from each other.

)이 상기 가동판(200)에 작용함으로써 상기 가동판(200)은 외부에 대해 일을 할 수 있는 에너지를 얻게 된다. 여기서, 상기 척력(

)과 미소한 힘(C')의 이동거리는 동일한 것으로 가정한다.Thus, as shown in Figs. 5 and 6, the repulsive force acting between the repulsive force generating permanent magnet MM2 for the movable plate and the repulsive force generating permanent magnet MF2 for the fixed plate

Acting on the movable plate 200, the movable plate 200 obtains energy that can work against the outside. Here, the repulsive force (

) And the minute force (C ') are the same.

≫ 2C'의 관계가 성립하며, 여기서, 미소한 힘(C')의 값이 극히 적기 때문에, 성능계수(COP)를 나타내는

/2C'는 거의 무한한 큰 값을 갖게 된다는 이론이 성립한다.As a result

2C '. Here, since the value of the minute force C' is extremely small, the coefficient of performance (COP)

/ 2C 'has an almost infinitely large value.

On the other hand, with reference to FIG. 3 to FIG. 7, in the energy conversion device of the material having the repulsive force and the attractive force according to the embodiment of the present invention, the coefficient of performance (COP) The principle will be explained in detail.

)과 인력(

)이 상호평형을 이루는 위치에서 정지하게 된다. 이때, 상기 고정판용 인력발생 영구자석(MF1, MF3)과 고정판(400)의 접촉면에는 각각 인력(

)과 같은 크기의 반력이 발생한다.When the permanent magnets are arranged as shown in Fig. 3,

) And manpower

) Are stopped at positions where they mutually equilibrate. At this time, on the contact surfaces of the permanent magnets MF1 and MF3 for the fixed plate and the fixed plate 400,

) Is generated.

)에 의해 가동판(200)이 이동하도록 하기 위해서는 순간적으로 인력(

)을 제거해야 하는데, 외부에서 에너지를 가하여 고정판용 인력발생 영구자석(MF1, MF3)을 순간적으로 떼어내면 된다. 이때, 순간적으로 필요한 힘은 인력(

) 이상이 되어야 한다. 이러한 경우, 외부에서 가한 힘의 합은 척력(

)과 동일하다. 즉, 외부에 대해서 일을 할 수 있는 척력(

)과 외부에서 공급한 힘의 비인 성능계수는 이론적으로 1이 된다.At this time,

In order to allow the movable plate 200 to move by the force

The permanent magnets MF1 and MF3 for the fixed plate may be momentarily removed by applying energy from the outside. At this moment, momentarily required force is the force

). In this case, the sum of the forces externally applied is the repulsive force

). That is, the repulsive force to work on the outside (

) And the coefficient of performance, which is the ratio of the force externally supplied, is theoretically 1.

)과 동일한 반력을 압축 탄성체(600a, 600b)에 저장하도록 함으로써 힘의 평형상태를 만들 수 있다. 즉, 인력(

)을 제거하기 위해 공급하여야 할 외부 일을 거의 "0"화 할 수 있어 척력과의 비인 성능계수(COP)를 이론적으로는 준무한대로 할 수 있다. 이러한 힘의 평형과 성능계수를 거의 무한정 크게(성능계수 ≒ ∞) 할 수 있다는 이론을 도 6을 이용하여 구체적으로 설명한다.Theoretically,

) Are stored in the compression elastic members 600a and 600b, so that an equilibrium of force can be obtained. That is,

), It is possible to make the external work to be almost "0", so that the coefficient of performance (COP) with the repulsive force can be theoretically quasi infinite. The theory that the equilibrium of these forces and the coefficient of performance can be made almost infinitely large (coefficient of performance?) Can be explained with reference to Fig.

)이 작용할 때 발생하는 반력을 흡수할 수 있는 압축 탄성체(600a, 600b)를 도 6에 도시된 바와 같이 배치하면, 그 반력은 압축 탄성체(600a, 600b)에 저장된다. 이때, 압축 탄성체(600a, 600b)의 각각의 용량은 인력(

)보다 다소 큰 것을 사용하면, 인력(

)에 의해 상기 압축 탄성체(600a, 600b)의 거리가 변형되면서 상호작용하는 힘의 평형을 이루는 지점에서 상기 가동판(200a) 및 상기 인력발생 영구자석 이동체(500a, 500b)가 각각 정지하게 된다.manpower(

The compressive elastic bodies 600a and 600b are arranged as shown in FIG. 6 so that the reaction forces are stored in the compressible elastic bodies 600a and 600b. At this time, the respective capacities of the compression elastic bodies 600a and 600b are adjusted by the attraction force

), It is possible to use a workforce

The movable plate 200a and the attracting permanent magnet moving bodies 500a and 500b are respectively stopped at a position where the compressive elastic members 600a and 600b are deformed by the force of the elastic members 600a and 600b.

)을 극복하고, 이들을 분리할 수 있다.At this time, when the force is balanced between the movable plate 200a and the attracting permanent magnet moving bodies 500a and 500b, the equilibrium of force is broken even if only a small force is applied. That is, as shown in FIG. 6, even when only the force Fo is extremely small, the attracting force acting on the attracting permanent magnets MM3 and MF3

) Can be overcome and these can be separated.

/W1·Fo)인 성능계수(COP)를 거의 무한한 큰 값(준무한대 성능계수)으로 확보할 수 있다. 즉, COP=W2·

/W1·Fo ≒∞ 의 관계가 성립한다.In this state of equilibrium of force, as shown in Fig. 7, the ratio of one energy supplied to the outside by the repulsive force to the one energy supplied from the outside (W2 ·

/ W1 · Fo) can be ensured as a large value (quasi-infinite coefficient of performance) that is almost infinite. That is, COP = W2 ·

/ W1 Fo < / RTI >

) 발생에 따른 상기 가동판(200)의 이동에 대응하여 구동되는 구동장치(도시되지 않음)를 추가로 포함할 수 있고, 상기 구동장치는 예컨대 압축기 및 엔진(Engine)과 같은 회전운동기기를 구동하거나 프레스 및 항타기와 같은 왕복운동기기를 구동할 수 있다는 점은 당업자에게 자명하다.Meanwhile, the energy conversion device of the material having the repulsive force and the attractive force according to the embodiment of the present invention is connected to the movable plate 200,

(Not shown) driven in correspondence with the movement of the movable plate 200 according to the occurrence of the rotation of the movable plate 200, and the driving device may be configured to drive a rotary exercise device such as a compressor and an engine Or to drive reciprocating devices such as presses and hoes.

As a result, according to the energy conversion device of the material having the repulsive force and the attractive force according to the embodiment of the present invention, it can be used for various devices that convert the mechanical energy into the mechanical energy using the material having the repulsive force and the attractive force .

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

: 인력

: 척력
Fo: 외부 공급 힘
W1·Fo: 외부 공급 에너지
W2·

: 척력(

)에 의한 외부 에너지100a, 100b: Fixed guide plate
200: Moving Plate
MM1: First attracting permanent magnet for movable plate
MM2: repulsive permanent magnet for movable plate
MM3: Second attracting permanent magnet for movable plate
300a, 300b: Wheel (Wheel)
400: Fixed Guide Plate
410: permanent magnet holder
MF1: 1st attracting permanent magnet for fixed plate
MF2: repulsive permanent magnet for fixed plate
MF3: Second attracting permanent magnet for fixed plate
500a, 500b: attraction force generating permanent magnet moving body
600a, 600b: a compression elastic body

: manpower

: Repulsion
Fo: External supply force
W1 · Fo: External supply energy
W2 ·

: Repulsion (

) ≪ / RTI >

Claims (10)

Fixing guide plates 100a and 100b serving as rails on which the movable plate 200 can move and fixing both sides of the fixing plate 400;
The first attraction force generating permanent magnet MM1 for the movable plate, the repulsive force generating permanent magnet MM2 for the movable plate and the second attraction force generating permanent magnet MM3 for the movable plate are fixed to the side surfaces of the stationary guide plates 100a and 100b, Installed movable plate (200);
Wherein the movable plate is fixed to the fixed guide plates in parallel with the movable plate so that the first attraction generating permanent magnet MM1 for the movable plate, the repulsive force generating permanent magnet MM2 for the movable plate, A stationary plate 400 provided with a first attracting permanent magnet MF1 for a stationary plate, a repulsive force generating permanent magnet MF2 for a stationary plate, and a second attracting permanent magnet MF3 for a stationary plate opposed to the attracting permanent magnet MM3, ;
5001, 500b (500a, 500b) having a first attraction force generating permanent magnet MF1 for the fixed plate and a second attraction force generating permanent magnet MF3 for fixed plate moving on the fixed plate 400 ); And
The first attraction force generating permanent magnet MF1 for the fixed plate and the second attraction force generating permanent magnet MF3 for the fixed plate and the attraction force generating permanent magnet moving bodies 500a and 500b for providing the elastic force to the attraction force generating permanent magnet moving bodies 500a and 500b, (500a, 600b), respectively,
, ≪ / RTI &
The attracting force is generated by the first attracting permanent magnet MM1 for the movable plate, the first attracting permanent magnet MF1 for the fixed plate, the second attracting permanent magnet MM3 and the second attracting permanent magnet MF3 for the fixed plate A repulsive force is generated between the repulsive force generating permanent magnet MM2 for the movable plate and the repulsive force generating permanent magnet MF2 for the fixed plate, A force Fo is applied to the magnet moving bodies 500a and 500b,

) Is removed so that the movable plate (200)

The magnetic force of the permanent magnets MM1, MM2, MM3, MF1, MF2, MF3 is converted into kinetic energy by moving the permanent magnets MM1, MM2, MF3 along the fixed guide plates 100a, 100b. Energy conversion device. The method according to claim 1,
When the movable plate 200 is brought close to the stationary plate 400 by applying external energy to the stationary plate 400, a gap between the first attracting permanent magnet MM1 for the movable plate and the first attracting permanent magnet MF1 for the stationary plate, The attraction force between the second attraction generating permanent magnet MM3 and the second attraction force generating permanent magnet MF3

) Between the permanent magnet (MM2) for repulsion force for the movable plate and the repulsive force generating permanent magnet (MF2) for the fixed plate

And a force Fo is applied to the permanent magnet moving bodies 500a and 500b,

) Of the material having the repulsive force and the attractive force. 3. The method of claim 2,
The repulsive force applied to the movable plate 200

And the moving distance W2,

) Of the external energy Eout is W2 ·

By the external supply force Fo applied to the permanent magnet moving bodies 500a and 500b and the moving distance W1,

The coefficient of performance (COP) given by the ratio of the output energy Eout to the input energy Ein is expressed by W2 · F0, ·

) / (W1 占 F o). delete The method according to claim 1,
The compressive elastic bodies 600a,

Is absorbed and stored in the permanent magnet moving body (500a, 500b) when the permanent magnet moving body (500a, 500b) acts on the permanent magnet moving body (500a, 500b). 6. The method of claim 5,
The capacity of the compressive elastic bodies 600a and 600b depends on the attraction force

), And the attraction force (

The moving distance of the compressive elastic bodies 600a and 600b is deformed by the movable plate 200 and the movable plate 200 is stopped at a point of an equilibrium of forces acting between the movable plate 200 and the fixed plate 400 And the energy conversion device of the material having the repulsive force and the attractive force. The method according to claim 1,
The first attraction generating permanent magnet MM1 and the first attraction force generating permanent magnet MF1 for the fixed plate are arranged in a manner to generate repulsive force between the movable plate repulsive force generating permanent magnet MM2 and the fixed plate repulsive force generating permanent magnet MF2, , The second attracting permanent magnet (MM3), and the second attracting permanent magnet (MF3) for the fixed plate are used to minimize the external supply energy for repulsive force generation. The energy conversion of the material having repulsive force and attractive force Device. The method according to claim 1,
A permanent magnet holder 410 formed on the fixing plate 400 is formed on the fixed plate 400 so that the first attraction force generating permanent magnet MF1 for the fixed plate and the second attraction force generating permanent magnet MF3 for the fixed plate can move through the fixed plate 400. [ ) Of the material having a repulsive force and an attractive force. The method according to claim 1,
The attracting force acting between the first attracting permanent magnet MM1 for the movable plate and the first attracting permanent magnet MF1 for the stationary plate

) And the attraction force acting between the second attraction-generating permanent magnet (MM3) for the movable plate and the second attraction-generating permanent magnet (MF3) for the fixed plate

)

Is a repulsive force acting between the repulsive force generating permanent magnet MM2 for the movable plate and the repulsive force generating permanent magnet MF2 for the fixed plate

)

>

>

) To maintain a quasi-equilibrium state such that the movable plate (200) can be kept stationary, and the attracting force

(600a, 600b), respectively, so that the attraction force

) Minimizes the external supply energy (Ein) required for removal of the material. The method according to claim 1,
And is connected to the movable plate 200,

, Wherein the driving device is driven in response to the movement of the movable plate (200) in response to the occurrence of the driving force, and the driving device drives the rotary driving device or the reciprocating driving device Material energy conversion device.

Images