DE1476665B2 - WITH A DEVICE FOR CHANGING THE WEIGHT OF THE WORK EQUIPMENT IN THE WORKING AREA - Google Patents

Description

The invention relates to a hot gas piston machine, in particular a hot gas engine, which or with a device for changing the weight of the working medium present in the work area is, in which machine the work area by one with a controllable shut-off device and one Non-return valve provided working medium supply line connected to a storage tank for working medium can be, and further to the work space is provided with at least one non-return valve working fluid discharge line is connected, which is connected at the other end to the suction opening of a compressor, the discharge opening of the compressor is connected by a line to the storage container, between this line and the A connecting channel with a valve is provided for the working medium discharge line.

In the above-described machine known from US Pat. No. 2,746,241, between the central discharge line and the line between the discharge opening of the compressor and the storage container a connecting channel present, wherein a check valve is provided which is directed in the direction of that mentioned Line can open. If the controllable shut-off device in the means discharge line is closed, that is during normal operation, the pressure in the agent discharge line will be at a very low level fall, the height of which depends on the maximum achievable compression ratio. The pressure in the Line to the reservoir and in the reservoir itself will be high, so that the pressure in the working space will vary between these two pressures. These large pressure fluctuations bring about considerable mechanical and thermodynamic losses with it, ._

The object of the present invention is to provide a To create hot gas piston machine * in which almost no pressure fluctuations in the normal operation Control compressor occur.

This object is achieved in that the line between the discharge opening of the compressor and the Reservoir also contains a check valve, and the connecting channel to this line at one between the mentioned check valve and the discharge opening of the compressor connects and the valve present in this connecting channel is a controllable valve that is used in a decrease in the amount of weight of the work equipment in the work area the closed and otherwise the can assume the open position, and wherein the working fluid discharge line has such a volume, that almost no pressure changes occur in this line when the controllable valve is in the open position.

In this context, a hot gas piston machine should be a hot gas engine and a cold gas cooling machine and a heat pump can be understood, the latter two after the reverse Work on the hot gas piston engine principle.

In all of these machines, a gaseous working medium is periodically generated by piston-shaped bodies moves back and forth between a warmer and a colder room, with it on its way from one to the other room and vice versa flows through at least one regenerator.

In a further advantageous embodiment of the hot gas piston machine, the buffer space forms part of the working medium discharge, and a check valve is provided between the working space and the buffer space, which check valve can open in the direction of the buffer space. In this embodiment, the volume of the central discharge is increased by that of the buffer space. This presupposes such a large volume that the changes in volume caused by the piston separating the buffer space from the working chamber, together with the changes in pressure caused by the compressor piston, bring about only very small changes in pressure.

In a further embodiment, the working medium discharge is via a check valve to the Connected to the buffer space and has such a volume that when the shut-off valve is open

direction almost no pressure changes occur. The derivation itself can alone have a sufficient volume exhibit. If this is not the case, a container can be placed in the drain. at This machine prevails in the buffer rooms and therefore also in the discharge connected to them very even pressure.

The invention is explained in more detail below with reference to the drawing.

F i g. 1 shows very schematically the control device of a known hot gas piston engine.

F i g. 2 also shows, very schematically, a hot gas engine with an improved control device.

F i g. 3 shows an embodiment of the hot gas engine according to FIG. 3 in more structural detail. 2.

F i g. 4 to 7 schematically represent hot gas engines which are provided with a buffer space and in which the work equipment discharge is connected to this buffer space.

Like F i g. 1 shows, the working space 101 of a hot gas engine is connected to a line 102 via a Reservoir 103 in connection. The working space iOl and the storage container 103 are both with one Working equipment filled. The line 102 is provided with a check valve 104 and an adjustable locking device 105 provided. A central discharge 106 is also connected to the working space 101. In this Line, a check valve 107 and an adjustable shut-off device 108 are also attached. the Line 106 is connected at the other end to the suction opening 109 of a compressor 110. The discharge opening 111 of the compressor is also connected to the container 103 via a line 112.

The pressure in the container 103 is set so that it is always higher than the minimum pressure in the working space 35-101 occurs.

When the shut-off device 105 is opened, working medium flows out of the container 103 to the Working space 101 so that the output of the engine increases. If, however, the shut-off device 108 is opened, then working medium flows through the compressor 110 from the working space 101 to the container 103. The weight of the working medium in the working space 101 decreases, and so does the output power of the engine sinks.

During normal operation, the shut-off devices 105 and 108 are both closed. The compressor 110 sucks the line 106 empty to a low pressure, which of course depends on the compression ratio of the compressor between the pressure in the line 106 and the pressure in the container 103 fluctuates. This large pressure fluctuation is accompanied by a large force fluctuation, which is great is disadvantageous for the compressor.

The in F i g. 2 hot gas engine shown schematically contains a working space 201 which is connected to a storage container 203 via a line 202. In the In line 202, a check valve 204 and an adjustable shut-off device 205 are provided. To the A central discharge line 206 is connected to the working space 202, in which a check valve 207 is attached is. The line 206 is connected at the other end to the suction opening 209 of a compressor 210. The discharge opening 211 of the compressor is also connected to the container 203 via a line 212 tied together. A check valve 213 is provided in line 212. The portion of line 212 that passes between the discharge opening 211 and the check valve 213 is located through a channel 214 with the part of the line 206 connected, which is located between the suction port 209 and the check valve 207. In channel 214 there is an adjustable shut-off device 215.

In this device, a pressure is set in the container 203, which is higher than the maximum pressure, the occurs in work space 201.

When the shut-off device 205 is opened, working medium flows to the working space 201 in this case too, see above that the output of the engine increases.

During normal operation, the shut-off device 205 assumes the open position, the line 206, the Line 212, the connecting channel 214 and the working space of the compressor 210 a single space form. The pressure in line 206 is between the maximum pressure in the working space of the Hot gas engine and the pressure in the storage tank. The volume of the line 206 is so large that in this Line and in the rooms connected to it almost no pressure fluctuations occur. If necessary, a jar 206 'can be fitted in the line 206 to increase the volume. As a result of the constant pressure level there are no large fluctuations in force, so that the Compressor lasts longer and makes less noise.

Should the engine deliver less power, i. H. If working medium is to be discharged from the working space 202, the shut-off device 215 is closed. The compressor 201 then draws in agent directly from the working space and feeds it into the container 203 compressed state too.

F i g. 3 shows schematically how the system according to FIG. 2 can be trained. Of course, too other structural designs are possible.

In a cylinder 320 of a hot gas engine, a piston 321 and a displacer 322 are with a Phase shift can be moved back and forth. These bodies are equipped with an engine, not shown coupled. The piston 321 and the lower surface of the displacer 322 change the volume of a compression space 323; the displacer changes the volume of an expansion space 324 with the upper surface both rooms are connected to each other by a cooler 325, a regenerator 326 and a heater 327 Link. A burner 328 supplies heat to the heater 327.

A working space is attached to the compression space 323 and the expansion space 324 Central supply line 302 connected with a check valve 304 and a controllable shut-off device 305 is provided. The central feed line 302 opens into the storage container 303 at the other end.

A central discharge line 306, in which a check valve 307 is appropriate. The line 306 is connected at the other end to the suction opening 309 of a compressor 310. The discharge opening 311 of the compressor 310 is through a line 312 in which a check valve 313 is provided, connected to the container 303. Lines 306 and 312 are through channel 314 connected to one another, which contains an adjustable shut-off device 315. The valves of the shut-off device 305 and 315 are both connected to a lever 330 which is supported by a spring 331. Ever after this lever is moved up or down, either the valve 315 or, the Valve 305 opened, creating the desired regulation

he follows.

F i g. Fig. 4 shows schematically a hot gas engine in which the parts that correspond to those of Figs correspond, are denoted by the same reference numerals. This hot gas engine has a buffer space 400 provided below the compression piston 321. The working area of this hot gas engine is above a Line 402, in which a check valve 404 and a shut-off device 405 are provided, with the Reservoir 403 in connection. Furthermore, a compressor 410 is provided, the discharge opening 411 through a line 412, in which a check valve 413 is mounted, with the container 403 in connection stands. The buffer space 400 is via a line 416 in which a check valve 417 is received, which can open in the direction of the buffer space, in connection with the work space. There is a Center discharge 406 connected. The connecting channel 414 with the shut-off device 415 connects the Lines 406 and 412 together. In this motor, the buffer space 400 thus forms part of the Fund diversion. When the shut-off device 405 is in the open position, there is thus a space that is derived from the Buffer space 400, the line 406, the working space of the compressor and the line 412. That The volume of this space is so large that that brought about by the piston 321 and the piston of the compressor Volume fluctuations cause almost no pressure fluctuations.

The shut-off devices 405 and 415 can be operated in the same way as for the engine according to FIG. 3 actuated will. When the shut-off device 415 is in the closed position, the compressor 410 sucks agent out of the Line 406 and the buffer space 400, whereby the pressure drops, so that the check valve 417 opens and working fluid flows from the work space to the buffer space.

The volume of the buffer space is too small with respect to that of the lower surface of the piston 321 caused volume fluctuations, as in the embodiment according to FIG. 5 the discharge line 406 can be connected to the buffer space via a check valve 407. To increase the volume the line 406 is at the in FIG. 5-5, a container 406 'in this conduit appropriate. As a result, when the shut-off device 415 is in the open position, an almost constant one is also here Pressure level in lines 406 and 412 and in the working space of the compressor secured.

A four-cylinder engine is shown schematically in FIG shown. The four cylinders 620 are all attached to a common buffer space 600. This Buffer space 600 communicates with each of the four work spaces through lines 616 with check valves 617 in connection. Here, too, a central discharge line 606 is connected to the buffer space, which is connected to the suction opening 609 of the compressor 610 is connected. The discharge opening 611 stands with the line 612 a check valve 613 received in this connection with the storage container 603. the Lines 606 and 612 are connected to one another via a channel 614 with an adjustable shut-off device 615 in connection. The container 603 is on the line 602 and each a controllable shut-off device 605 and a check valve 604 in communication with each of the four working spaces.

The shut-off devices 605 are all opened or simultaneously by a control device closed.

A more detailed explanation of the mode of operation of the motor should be superfluous after the above.

Since the pistons of the four cylinders can be moved with a mutual phase difference of about 90 ° are, "the volume of the buffer space is obviously hardly influenced by the movements of these pistons. As a result, there are almost no changes in volume. When the Shut-off device 615 changes the volume of the buffer space 600, lines 606 and 602 and the working space of the compressor existing space brought about only by the piston of the compressor. However, this change is relatively so small compared to the total volume that almost no pressure fluctuations occur.

In Figures 4, 5 and 6 there is a connection between the buffer space and the working space from a line or lines, in or in each of which a check valve is added.

Instead of this line with a check valve, the type shown in FIG. 7 can advantageously be used Find. In this embodiment, a piston ring 718 is mounted in the piston 321, which is attached to the Buffer space 700 facing side is provided with grooves 719, which a complete system of this side the piston ring on the wall of the piston groove. This means that the piston ring 718 in Direction towards the work space counteracts a flow of working medium, in the direction of the buffer space however, allows a flow of working fluid. If now by the fact that the shut-off device 715 is closed, the compressor 710 sucks working fluid out of the buffer space, that pushes Means in the working space down the piston ring so that it flows from the working space to the buffer space can. This piston ring, which acts as a check valve, results in a considerable structural simplification.

For this purpose 4 sheets of drawings

Claims (3)

Patent claims: 1. Hot gas piston machine, in particular a hot gas engine, which is provided with a device for changing the weight of the working medium present in the working area, in which machine the working area is connected to a storage container for working medium by a working medium supply line provided with a controllable shut-off device and a check valve can, and a Arbeitsmittelabfuhrleiturig provided with at least one check valve is connected to the working space, which is connected at the other end to the suction opening of a compressor, the discharge opening of the compressor is connected by a line to the storage container, with between this line and the Arbeitsmittelabfuhrleitung a connection channel with a valve is provided, characterized in that the line (212) between the discharge opening of the compressor and the storage container also contains a check valve (213) , and the connection channel (214) connects to this line (212) at a point located between the mentioned check valve and the discharge opening of the compressor and the valve present in this connection channel (214) is a controllable valve (215) which, when the weight of the working medium decreases in the working space (201) can assume the closed and otherwise the open position, and the working medium discharge line (206) has such a volume that almost no pressure changes occur in this line when the controllable valve (215) is in the open position. 2. Hot gas piston machine according to claim 1, which also contains a buffer space, characterized in that the buffer space (400, 600) forms part of the working medium discharge line (406, 606) and that between the working space (323) and the buffer space a check valve (417, 617) is available, which can open towards the buffer space. 3. Hot gas piston machine according to claim 2, characterized in that the working medium discharge line (406) is connected to the buffer space (400 ) via a check valve (407) and has such a volume that almost no pressure changes occur when the controllable valve (415) is in the open position .