CN110631398A - Heat pipe type ball plug magnetic induction power device - Google Patents

Abstract

The invention discloses a component for converting heat energy into mechanical energy, which generates mechanical energy by utilizing temperature difference and comprises a round pipeline made of heat conducting materials, a ball made of magnetic materials such as iron or rubidium in the pipeline, a heat medium of fluid in the pipeline, and a transmission device which is provided with a one-way plug in the pipeline, leads the ball and the medium to only face one direction and is simultaneously provided with the magnetic materials outside the pipeline; the pipeline is a closed heat-distributing section and a cold section, the internal fluid medium and the balls are sections, one ball and the adjacent medium are sections, the volume of the medium expands to push the ball after the medium is heated, the ball plays a role in blocking to push the medium of the previous section, the volume of the medium and the ball cooling the medium after leaving the heat source is reduced, each section of the medium absorbs heat to expand when passing through the hot section again, the volume of the medium and the ball cooling the outside of the pipeline when passing through the cold section, a loop is formed, the magnetic material is outside the pipeline, and the magnetic material drives the external magnetic material to move when the ball in the pipeline moves; the heat dissipation device can be used for heat dissipation of a computer and power generation by waste heat, and generates power while heat is taken away.

Description

Heat pipe type ball plug magnetic induction power device

Technical Field

The invention relates to the technical field of heat recycling, in particular to a device for generating mechanical energy by moving heat energy.

Technical Field

The cold-hot circulation refers to that the working medium is heated and continuously does work, and the working medium returns to the most original state, and supports the principle of the invention: carnot cycle, rankine cycle (principle of steam engine).

The bottom heat pipe in the heat pipe radiator in the current market is a heat transfer element, the heat conduction principle and the rapid heat transfer property of a refrigeration medium are fully utilized, the heat of a heating object is rapidly transferred to the outside of a heat source through the heat pipe, and the heat conduction capability of the heat pipe radiator exceeds the heat conduction capability of any known metal. The heat pipe technology is widely applied to the industries of aerospace, war industry and the like, and since the heat pipe technology is introduced into the radiator manufacturing industry, people change the design idea of the traditional radiator, get rid of the single heat dissipation mode of obtaining better heat dissipation effect by only depending on a high-air-volume motor, and can obtain satisfactory effect even if the heat pipe technology is adopted to ensure that the radiator adopts a low-rotating-speed and low-air-volume motor, so that the noise problem disturbing air cooling heat dissipation is well solved. (Suyidu Baike)

In the cold and hot cycle, there is no other mechanism to accomplish this except for the use of boundary layer effects to output mechanical energy such as steam engines.

Disclosure of Invention

According to the blank of the prior art, the invention provides a heat pipe type ball plug magnetic induction power device.

Aiming at the technical blank, the invention provides a novel conversion method, which can enable a plurality of heat dissipation sections and heat absorption sections to be stored in a pipeline and enable magnetic materials outside a heat pipe to move, so that heat can be conducted and can be converted into mechanical energy. Environment protection, high efficiency, stability and integration.

The invention provides a heat pipe type ball plug magnetic induction power device, which comprises a heat pipe of a circulation loop; the inside of the heat conduction pipe is provided with a ball made of magnetic material; a refrigerant that absorbs the transferred heat and expands; one-way plug for preventing refrigerant magnetic ball from reverse flow inside the pipeline; the outside of the pipeline is in the magnetic induction range, and the outside of the pipeline is attracted with the magnetic ball in the pipeline to move, and the magnetic material around the wheel disc is arranged on the outside of the pipeline.

Has the advantages that: the invention utilizes and improves the heat using efficiency in the form, can ensure that a plurality of machines can stably operate without using an external power supply, and the whole member can start to operate as long as the temperature difference exists between the cold section and the hot forging, and has high autonomy, use, distribution and degree of freedom.

Furthermore, the method of adding the one-way diversion valve and the magnetic material in the heat pipe enables the heat pipe to be a loop, in the whole heat circulation pipeline, the diversion valve plays a role in circulating non-countercurrent and enlarging the distance between the magnetic balls, and a fluid medium (refrigerant) can be kept in the distance between the magnetic balls so as to ensure the full utilization of the fluid medium. In the heat pipe, when each section of coolant moves to a hot section, isothermal heat absorption is carried out, adiabatic expansion is carried out after heat absorption, the magnetic ball is subjected to the expanded pressure to move, the fluid medium in the front section of the magnetic ball is pushed to move, isothermal heat release is carried out when the fluid medium reaches a cold section, and the fluid medium is condensed and compressed to return to the original state.

Further, in the heat pipe, the ball made of the magnetic material plays a role of blocking and pressure plugging, and can divide a magnetic ball and a section of fluid medium into a section.

Furthermore, a magnetic material is arranged outside the heat pipe, so that the magnetic material and the magnetic material (magnetic balls) in the heat pipe can attract each other and move synchronously, and the external magnetic material is not in contact with the heat pipe (see the attached figure 5 in the specification in detail), so that the friction is reduced.

Further the fluid medium in the heat pipe is a hydrofluoroolefin but is not so limited.

Description of the drawings:

in order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

The components of which are shown in figures 1, 2, 3 and 4 as a whole

FIGS. 5, 6, 7, and 8 show the components of the one-way plug

FIG. 9 is a composition of a magnetic disk

A one-way card; 2-coolant channel (which may also represent the entire one-way valve); 3-round magnetic balls (magnetic balls) made of magnetic material; 4-magnetic ball (same as 3); 5-a heat pipe; 6-a wheel disc; 7-a magnetic material;

Detailed Description

The invention is that a magnetic ball 4, a refrigerant and vacuum (the ratio is 1: 3: 1 (not limited) are arranged in a cylindrical loop sealing heat pipe 5, and the refrigerant is divided into a plurality of sections by the magnetic ball; the refrigerant adiabatically expands in the hot section, isothermally releases heat, condenses and compresses to the original state in the cold section, the one-way valve 2 controls the distance between the magnetic balls, so that the refrigerant adiabatically expands after absorbing heat, and the magnetic ball 4 pushes the refrigerant of the previous section or sections of the magnetic ball 3 to the hot section, wherein the magnetic balls 3 and 4 move in such a way; the outside of the heat pipe is provided with a magnetic material 7 which can be a rubidium magnet and is not contacted with the heat pipe 5, and when the magnetic balls 3 and 4 in the heat pipe move, the magnetic material 7 outside can be driven to move through the magnetic induction area of the magnetic balls so as to do work. (only two magnetic balls 3, 4 are shown here for demonstration purposes, and the number of magnetic balls in actual use is not less than two.)

The unidirectional plugs are arranged in the pipelines of the single hot section and the single cold section, 1 to 2 refrigerant in the hot section can expand firstly during implementation, the magnetic ball 4 in the cold section is forced to enter the hot section by the pressure of the expansion of the refrigerant, the refrigerant enters the hot section at the same time, the coolant enters the hot section from the coolant channel 2 before the magnetic ball 3 enters the hot section, and the amount of the refrigerant meets the requirement that the unidirectional plugs 2 are completely plugged by the magnetic ball 4 because of the unidirectional plug 1 when the hot section expands, so that the refrigerant cannot flow reversely; when a magnetic ball 4 with refrigerant reaches the one-way plug 2, if the one-way plug 2 already has a magnetic ball 3, the magnetic ball 4 directly hits the magnetic ball 3, so that the magnetic ball is separated from the one-way plug 2, and the refrigerant is carried into a hot section and moves in the heat pipe 5.

When the magnetic ball passes through the cold forging, the wheel disc 6 with the magnetic material 7 moves synchronously with the magnetic ball in the tube due to the attraction of the magnetic force, thereby doing work and generating mechanical energy.

Claims (7)

1. A component for obtaining mechanical energy through cold and heat circulation is characterized by comprising a cylindrical heat conduction pipeline loop, a fluid medium and a magnetic material, wherein the magnetic material capable of moving is arranged in the heat conduction pipeline loop to form balls and move, and the fluid medium has the properties of isothermal heat absorption, adiabatic expansion, isothermal heat release and adiabatic compression; the heat conducting pipe is provided with a hot forging section and a cold section, a fluid medium absorbs heat and expands when passing through the hot section, the fluid medium can drive the magnetic ball to move when moving in the pipeline, the ball made of the magnetic material plays a role in segmenting the fluid medium, and the magnetic ball in the pipe can drive an external magnetic iron material to move.

2. The heat pipe type ball plug magnetic induction power device as claimed in claim 1, wherein the magnetic material balls, fluid heat conducting medium, heat conducting pipes, etc. in the specification, the drawings and the abstract claims are simplified or referred to as "magnetic balls, refrigerant and heat pipes".

3. The heat pipe type ball plunger magnetic induction power device as claimed in claim 1 or 2, wherein a plurality of magnetic balls are disposed in the heat pipe.

4. The heat pipe type ball plunger magnetic induction power device of claim 1, wherein the heat pipes have different shapes, there are a plurality of hot forging and cold sections, and the number of the magnetic balls is plural, and the number of the magnetic balls is determined according to actual use.

5. A heat pipe type ball plunger magnetic induction power device as claimed in claim 1, 2, 3 wherein said heat pipe has a fluid medium which expands when heated, a section of the fluid medium is joined with a magnetic ball; when each node is subjected to hot forging, the volume of each node expands, so that the front section moves, and heat is dissipated in the moving process, thereby forming a cycle.

6. The heat pipe type ball plunger magnetic induction power device as claimed in claim 1, 2, 3, 5, wherein the fluid medium and the magnetic ball expand, compress, and move in the heat pipe, the heat pipe has a magnetic member outside, and the heat pipe has an inner part that attracts the outer member to move.

7. The heat pipe type ball plunger magnetic induction power device as claimed in claim 1, 2, 3, 5, wherein the heat pipe has a fluid heat-conducting medium and a vacuum inside.

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