JPH0776542B2 - Stirling engine - Google Patents

Description

FIELD OF THE INVENTION The present invention relates to Stirling engines.

2. Description of the Related Art Conventionally, the Stirling engine has various characteristics such as high efficiency, low noise, and diversification of fuel, and there are various types. In particular, the free piston type Stirling engine is As shown in FIG. 2, the working fluid is enclosed in the closed container 1, and the expansion space 2, the heater 3, the regenerator 4,
The cooler 5, the compression space A6, the compression space B7, the passage hole 8 and the like are moved. A displacer 9 is provided to generate a pressure fluctuation in the working fluid in the closed container 1. A displacer rod 10 is connected to the displacer 9, and the displacer rod 10 is connected to the displacer rod 10.
A displacer cylinder 11 is installed so as to slide with 10. A power piston 12 for extracting work from the pressure fluctuation of the working fluid is provided in the closed container 1, and the power piston 12 moves up and down due to the pressure fluctuation. When the power piston 12 moves up and down, the communication passage A13 and the communication passage B14
However, it is provided so as to communicate with each other at a certain relative position, and the compression space B7 and the bounce space 15 at the time of communication have equal pressures, whereby the center position of the vertical movement of the power piston 12 is always connected to the communication passage A13. Communication passage B14 was at the position where it communicated.

The problem to be solved by the invention is that with such a configuration, if the center position of the vertical movement of the power piston is to be made constant, the working fluid in the compression space will pass through the communication passage at the time of communication and will also be in the bounce space. Therefore, it will be a liquid loss and as an engine,
There was a problem that the output decreased. Further, when the operating frequency of the engine is increased, it becomes impossible to follow the instantaneous pressure fluctuation, and the center position of the vertical movement is deviated. Further, it is necessary to make a long hole in the power piston and the wall of the closed container, which is a problem in terms of processing.

Means for Solving the Problems In order to solve the problems of the related art, the present invention provides an auxiliary piston through a rod having a diameter smaller than that of the power piston above or below the power piston for taking work. Is connected to the power piston, and the protruding plate that is located between the power piston and the auxiliary piston and that does not contact the rod is fixed to the closed container, and both sides of the protruding plate, and
Magnets are installed on the rod-side surface of the power piston and the rod-side surface of the auxiliary piston, and a bellows is provided at least between the power piston and the projecting plate or between the auxiliary piston and the projecting plate.

Action With this structure, when the power piston moves up and down and the center of motion of the power piston shifts to the lower side, the magnets on the lower surface of the power piston and the upper surface of the protruding plate repel each other, and the center of motion When the position is returned to the upper side, and conversely the movement center position of the power piston shifts to the upper side, the magnets on the upper surface of the auxiliary piston and the lower surface of the protruding plate repel each other, and the movement center position is returned to the lower side. Unlike before, there is no flow loss and the center of motion of the power piston can be kept constant. By incorporating a bellows, the position of the center of motion can be maintained more accurately, and the operation of the engine side during high-speed motion is also possible. It is possible to completely separate the fluid and the refrigerant on the compressor side.

Example Hereinafter, a specific description will be given with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of the present invention. First
In the figure, the working fluid is enclosed in a closed container 16 so that the expansion space 17, the heater 18, the regenerator 19, the cooler 20, the compression space A21, the compression space B22, and the passage hole 23 are moved. Has become. Further, in order to generate a pressure fluctuation in the working fluid in the closed container 16, a disperser 24 is provided,
A displacer rod 25 is connected to the displacer 24, and a displacer cylinder 26 is provided so as to slide with the displacer rod 25. Also,
A power piston 27, which takes out work from the pressure fluctuation of the working fluid, is provided in the closed container 16. Below this power piston 27, a power rod 27 having a diameter smaller than that of the power piston 27 is used to assist. The piston 29 is connected. Therefore, power piston 27, rod 28, auxiliary piston 29
The three persons will have an integrated structure, and the three persons will inevitably have the same exercise.

Here, the diameter of the auxiliary piston 29 may be larger than that of the rod 28, and in the present embodiment, the auxiliary piston 29 and the power piston 27 have the same diameter, but according to the present invention, the auxiliary piston 29 and the power piston 27 have the same diameter. The piston 27 can have different diameters. Also, power piston 27 and auxiliary piston
A projecting plate 30 is provided so as to project from the closed container 16 so as not to come into contact with the rod 28 while being located between 29. Magnets are installed on both surfaces of the projecting plate 30, the lower surface of the power piston 27, and the upper surface of the auxiliary piston. Furthermore, in this embodiment, the power piston
Although the bellows 31 is provided between the 27 and the projecting plate 30 and between the auxiliary piston 29 and the projecting plate 30, the bellows 31 may be provided on either one of the bellows 31 instead of both. Adding the bellows 31 to the magnet makes it easy to keep the center of motion of the power piston 27 constant. Regarding the positional relationship between the power piston 27 and the auxiliary piston 29, in the present embodiment, the auxiliary piston 29 is provided below the power piston 27 via the rod 28. The same operation can be performed by providing the auxiliary piston 29 on the upper side of the rod via the rod 28. Further, in this embodiment, a refrigerant is provided below the auxiliary piston 29, the auxiliary piston 29 compresses the refrigerant, and the intake valve 32 and the discharge valve 33 are provided, so that the refrigerant can operate as a compressor. Is shown.

Next, the operation will be described.

First, when the displacer 24 moves upward, the working fluid in the closed container 16 moves from the expansion space 17, the heater 18, the regenerator 19, and the cooler 20 to the compression space A21. Since the volume of the working space is kept constant, the average temperature of the working space decreases while the displacer 24 moves from the bottom dead center to the top dead center, and as a result, the average pressure of the working space decreases. Therefore, due to the difference between the pressure in the compression space B22 communicated with the compression space A21 in the passage hole 23 and the bounce space, the force acting on the power piston 27 in the upward direction increases and the power piston 27 moves in the upward direction. Be raised to. When the displacer 24 moves upward, the gas spring
The pressure of 35 decreases, and the displacer 24 moves downward due to the difference between the pressure of the gas spring 35 and the pressure of the expansion space 17. Therefore, the working fluid from the compression space A21,
After passing through the cooler 20, the regenerator 19, and the heater 18, it moves to the expansion space 17, where the average temperature rises and the average pressure increases. Therefore,
The power piston 27 is pulled down by the difference between the pressure in the compression space B22 and the pressure in the bounce space. When the displacer 24 further moves downward, the pressure of the gas spring 35 increases, and the displacer 24 moves upward due to the difference between the pressure of the gas spring 35 and the pressure of the expansion space 17. Hereafter, in this way,
24 moves up and down, which causes the pressure in the working space to fluctuate and drive the power piston 27 up and down. When the power piston 27 moves up and down,
If the movement center position of the piston 27 shifts to the lower side, the power
The lower surface of the piston 27 and the magnet 36 on the upper surface of the protruding plate 30 repel each other, and the center of motion is returned to the upper side.
When the movement center position of the piston 27 shifts to the upper side, the auxiliary piston 29 upper surface and the magnet 36 on the lower surface of the protruding plate 30 repel each other, and the movement center position is returned to the lower side. Unlike the conventional case, the movement center position of the power piston 27 can be made constant without flow loss and the like, and in the present embodiment, further, between the power piston 27 and the projecting plate 30, and the auxiliary A bellows 31 is provided between the piston 29 and the protruding plate 30 so that the movement center position can be maintained more accurately. Further, in the present embodiment, the power piston 27 is also made to operate, and when the power piston 27 is driven upward, the suction valve 32 opens, refrigerant is sucked, and conversely, the power piston 27 When driven downward, the auxiliary piston 29 integrated with the power piston 27 compresses the refrigerant, and when the discharge pressure is exceeded, the discharge valve 33 opens and the refrigerant is discharged. Since the movement center position can be made constant, the top clearance can be reduced and the volumetric efficiency can be improved even in the case of a compressor. Further, the working fluid on the engine side and the refrigerant on the compressor side can be separated by the bellows 31.

Effects of the Invention As described above, according to the Stirling engine of the present invention, there is no flow loss, etc., and the center position of vertical movement can be made constant even when the operating frequency is large, so that the output as an engine is also high. Higher output can be achieved without lowering. Also, the smaller the distance between the magnets, the greater the repulsive force, and therefore the risk of collision is less. Further, as a compressor, it is possible to improve the volumetric efficiency and achieve high performance.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the Stirling engine of the present invention, and FIG. 2 is a block diagram showing a conventional Stirling engine. 24 ... Displacer, 27 ... Power piston, 28 ...
… Rod, 29 …… Auxiliary piston, 30 …… Projecting plate, 31 ……
Bellows, 32 ... suction valve, 33 ... discharge valve, 36 ... magnet.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Kinichi Adachi 1006 Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. (56) Reference JP-A-58-150029 (JP, A)

Claims (2)

[Claims] 1. A closed container is provided with a working fluid, a means for heating and cooling the working fluid, and a power piston for taking out work from pressure fluctuations of the working fluid are provided on the power piston, or An auxiliary piston is connected to the power piston through a rod having a diameter smaller than that of the power piston on the lower side, and a protruding plate that is located between the power piston and the auxiliary piston and does not contact the rod is the closed container. Fixed to both surfaces of the protruding plate, and the rod-side surface of the power piston, and the rod-side surface of the auxiliary piston, a magnet is installed between the power piston and the protruding plate, or A Stirling engine, wherein a bellows is provided on at least one of the auxiliary piston and the projecting plate. 2. A Stirling engine according to claim 1, wherein a refrigerant is enclosed below the auxiliary piston, and the auxiliary piston compresses the refrigerant to form a compressor.