DE1539827C - Method and apparatus for generating rapidly successive Verschiebungsbe movements of the movable part of the expansion device of a bubble chamber - Google Patents

Description

The invention relates to a method and a device for generating rapidly on top of one another subsequent displacement movements of the movable part of the expansion device of a bubble chamber with large dimensions.

The bubble chambers, which are about the most powerful devices for basic research Elementary particles belong, consist of a container that is filled with a liquid, e.g. B. liquefied Hydrogen, which is filled by a sudden discharge ίο Voltage is brought above its boiling point. The passage of each individual particle then leads to a path of bubbles that can be photographed. The relaxation is generally achieved by shifting a piston in the upper part of the chamber or in a separate from the actual chamber Space, however, connected to the upper part of the chamber by a series of parallel pipes is caused. The total cross-section of the pipes is sufficient that the pressure drop in the upper Room continues to the chamber without excessive pressure loss.

The moving part of the expansion device, which includes the expansion piston, must in the course experience an extraordinarily rapid shift in a relaxation; on the other hand, this one owns Part of the weight of chambers with large dimensions. For example, this moving part weighs a projected bladder chamber 1600 kg and has to move back and forth during relaxation of 10 cm amplitude in a time of less than 30 milliseconds, resulting in an acceleration up to 350 g and forces of 400 t.

So far, the expansion piston has generally been operated by generating a pressure difference on the .eine side of an actuating piston firmly connected to it. However, on the one hand it would be very difficult and costly to let the energy required to generate the necessary rapid repetition of the movements in the case considered above or in similar cases become effective. On the other hand, the kinetic energy absorbed by the moving machine part would reach a value in the order of magnitude of 10 ⁵ joules, which is difficult to derive. One would actually have to set the engine power required to actuate the piston at 1500 kW if an expansion is to take place per second, which represents an inadequate expansion repetition frequency for a bubble chamber to be operated together with an existing or projected particle accelerator.

It is also an actuator for the moving part of the expansion device of a bubble chamber filled with a heavy liquid (propane or fluorinated hydrocarbons) known in which the moving part in its rest position by maintaining a hydraulic Pressure is kept tensioned on a plunger connected to the machine part, wherein the compressibility of the heavy liquid is used to store the relaxation energy. However, this solution is practically inapplicable for bladder chambers with a large volume, because the design and manufacture of hydraulic valves, which at the same time very quickly and with large cross-section is very difficult. In addition, this solution has various disadvantages, mainly the fact that there is no definite and unchangeable position of rest there this rest position is determined by a volume of liquid. A change in the starting position but leads to a change in the relaxation cycle.

The invention is based on the object of a method and a device for actuating the Displacement movement of the expansion piston to create a bubble chamber in which for each To and fro movement requires much less energy than the known device and the locking of the movable part of the expansion device in a precisely determined Guarantee position.

This task is performed in a method for generating displacement movements in rapid succession of the movable part of the expansion device of a bladder chamber, in which an actuating piston firmly connected to the movable part due to a high gas pressure difference between two separate pressure chambers in the sense of the expansion of the bubble chamber filling liquid is moved forward and supported after braking and stopping of the moving part by applying a pressure of a working medium to one with the moving part firmly connected plunger is moved back into its starting position, according to the invention thereby solved that the movable part initially in: one of the compression state of the bladder chamber corresponding certain position is held mechanically locked, that the lock is then released to allow the actuation piston to move forward through the gas pressure differential, that then the braking and stopping of the actuating piston by reversing the Pressure difference between the two separate pressure chambers takes place and that finally after the through the application of the pressure of the working medium to the plunger supported return of the movable part in or above the corresponding to the compression state of the bladder chamber certain position also the moving part is mechanically locked again in the certain position will.

An expansion device of a bubble chamber that operates according to the method according to the invention with an actuating piston firmly connected to the moving part of the device, with a fixed housing surrounding the movable part, in which there are two pressure chambers separated by the actuating piston one fixedly connected to the movable part and, together with the fixed housing, an actuation space for a working medium delimiting plunger and with devices for generating and control of the pressure of the working medium effective in the actuation space is according to the invention characterized in that the two pressure chambers are provided with devices for generating the gas pressure difference are connected between the two pressure chambers that a locking device for secure mechanical locking of the moving part in a certain position against the pressure force exerted on the actuating piston is provided and that a synchronization device is provided and designed such that it

3 4

successively the unlocking of the movable clamping piston 14 lie. The punch 16 can consist of part triggers, then the generation of an over-section, which is triggered by a flange connection pressure of the working medium in the actuation space formation 17 with half-ring-shaped flanges 19 and as soon as the movable part is firmly held together after reaching bolts,
3 The piston 18 divides one of a fixed reverse pressure difference between the two housings 20, which begins its backward movement from several parts together-pressure chambers, limited space into a lower compartment and finally the locking device in an end position under the action of the reverse 22 and an upper compartment 24, which are essentially in the sense of locking the movable part in the tight. When the actuating piston 18 is actuated in a certain position. A further training 10 F i g. 2 assumes the position shown in the invention is formed in the expansion departments 22 and 24 by means of the lines 26 and device results from the directed thereon 28 a gas under pressure, the pressure in the, further claim. Department 22 is much higher than Department 24.

The invention is based on the following: These lines are then closed and

Writing a description given as an example only serves to adjust the pressures in

management form of an expansion device closer to large time intervals. For example, as

explained. The description refers to the filling gas nitrogen with a pressure of 160 bar in

Drawings. For this, the department shows 22 and 60 bar in the department 24

F i g. 1 schematically using a bubble chamber in section.

along a through the vertical axis of displacement 20 The pressure difference between the compartments

of the expansion piston, 22 and 24 exert a force on piston 14,

F i g. 2 shows an individual illustration of the piston actuation, which means that it is printed upwards. In contrast to

device in section, the piston is relieved of this force by a locking

F i g. 3, similar to FIG. 2, a very schematic management device (Fig. 2) in a certain position

Representation of a modified embodiment 25 development recorded. The locking device uni-

according to the invention, summarizes a series of elastic tongues 30, which of a

F i g. 4 is a curve showing the length displacements in a groove of the punch 16 collar

of the movable machine part of the device 32 are carried and provided with pawls 34

according to FIG. 3 are again depending on the time. These pawls have such a shape that

are. 30 they against an inner bulge 36 of the fixed wall

The in F i g. 1 shown bubble chamber includes the press of the housing, as long as the tongues 30 not

actual chamber A are deformed by being more cylindrical on the whole.

Shape with a perpendicular to the plane of the drawing. The contact surfaces of the inner bulge 36 horizontal axis and with sight glasses 6. These and the pawls 34 are opposite the balance chamber is vertical by a row, in the 35 right inclined so that the tongues are below through the. Cylinder axis perpendicular to the effect of the pressure difference of the gas Lengthened level of arranged lines, of which exerted between departments 22 and 24 only one line 8 in FIG. 1 is visible. Bend the Lei force radially inwards and uncover the piston 8 open into a container 10 with lowering. If the parts of the device the right axis, which has a cylindrical section 12 40 in F i g. 2 occupy the position shown, this will has, in which a relaxation piston 14 slides. Bend of the tongues 30 by a between the The sleeve 38 is pushed between the section 12 and the piston 14 and the tongues only sufficiently small compensating leaks are present, so prevented (in Fig. 2 there are two things for clarity The pawls 34 and the inner bulge 36 are seen as a result of the rapid lifting of the piston 45 small spaces shown, but in fact is dampened. This arrangement allows these parts to touch each other).

Container 10 outside the area that is surrounded by the around Die at its lower end with a book

the lines 8 arranged around, not shown 'device 40 provided sleeve 38 slides between

Deflection coils is used. the punch 16 and the fixed housing 20, and

The fixed arrangement constructed in this way is limited by its bulge 40 so in the housing two a framework indicated schematically in Fig. 1, chambers 44 and 54 with variable volume, which is anchored on a sufficiently heavy concrete plate. around without dodging the top of each other is effected by two ring seals,
The lower chamber 54 is filled with gas from a can. 55 certain pressure (e.g. nitrogen of 25 bar

In the embodiment described, pre-pressure) is filled, which is indicated by a closable lever that the expansion piston 14 is introduced into a direction 46. .
and reciprocation of 10 cm amplitude in a The upper chamber 44 is connected by a line 45 time less than 30 msec with a reciprocating and with an electrically operated valve 47, reciprocation per second 60 which it either with a discharge 43 or with leads. For this purpose, it is equipped with one shown in FIG. 2 an accumulator 49 which is connected to a gas, such as stick-shown actuator. This fabric, under a high pressure, e.g. B. about U) O bar, actuating device comprises one at Iiiitspan- contains, connects.

nungskolbcn 14 attached punch 16 and a The punch 16 ends in an enlarged

Actuating piston 18, which is attached to the punch 65, section which forms a plunger 48, which in

or formed in one piece with him. The one bell 50 that closes the housing 20

The diameter of this actuation piston 18 can slide in and with it an actuation space 52

of the same order of magnitude as that of the decompressed, in which one is bounded by an electrically operated valve

5 6

58 either with a (for example nitrogen. At time t ₂ , where the moving part

holding) compressed gas storage 60 or with an expansion device its upper position

Letting 62 connected line 56 opens. has reached and under the effect of on the

The actuation of the valves 58,47 happens automatically in the opposite direction as: automatically by means of an electronic synchronizing 5 initially acting force to descend again besationsvorrichtung 166 known type, which starts, an impulse coming from the clock changes the control during the operation of the according to the invention the state of the circuit 78; the sequence of actuating device 166 to be carried out for the synchronization process acts on valve 58 in such a way that steps are used. The synchronization device 166 line 56 to be connected to the compressed gas storage 60 includes, for example, a clock 170 which, when receiving. In this way, a pressure catch of a control signal is generated in the actuation chamber 52 by a pulse generator, which exerts an additional force to the force acting alternately on the 172 at two outputs, a sequence of actuation pistons 18. Supplies pulses at certain time intervals. If the synchronization device is, for example, program, an electronic watch with mized that the pressure in the space 52 used by the by the Dekatron tubes, the twelve single i regularly ₅ corresponding force worked providing at Hinbare pulses, the distances between and The energy generated by the piston is pulsed in jumps of 10 ~ ⁴ seconds from 0 until losses are compensated and the moving part is 1 second. The outputs of the clock act on additional impulse gives it, so that when it descends the circuits 76 and 78 for electrical actuation, it runs slightly beyond the locking position of the valves 47 and 58.20.

The operational sequence for generating a sudden- At a point in time t ₃ at which the movable

borrowed back and forth movement of the relaxation machine part beyond its locking position

piston 14 (ascending and then descending steps, changes one coming from the clock 170

Movement) will now be described in detail. Pulse the state of the circuit 76 and causes

When the device is made ready for use 25 actuation of the valve 47. The synchronization

(tensioned), its parts take the ones shown in FIG. 2 device 166 thus brings the chamber 44 back

showed position. In department 22 there is an outlet pressure. Those under the same-

Pressure of 160 bar and in the compartment 24 a pressure in the chamber 54 cuff

those of 60 bar. In this position of the actuator 38 is suddenly pushed up again

supply piston 18 is the volume of the compartment 22 30 and slides between the punch 16 and the

somewhat smaller than that of division 24. The maneuvers 30, so that these are not inwardly

The cuff 38 will be able to bend through the chamber 34 when the pawls 34 move

seeing pressure is held in its upper position, the piston rises again against the

(The chamber 44 is created by the electrovalve 47 device 36. The movable machine part is

connected to the outlet line 43 and thus on 35 so in the operational (tensioned) position

locks the off again, which is close to atmospheric pressure. Finally, at time i ₄

imposing pressure). The cuff 38 maintains the state of the a new pulse of the watch 170

Tongues 30 fixed in their locked position. Circuit 78 and thus the valve 58, which the

It is triggered by introducing grain space 52 anew with the outlet line 62.

primed working medium in the chamber 44 under 40 binds. The initial state is thus restored.

Pressure. The synchronization is provided for this purpose.

Device 166 set in motion ;, the pulse generator Obviously, various modified 172 are possible, for example through the emergence of the embodiments. In particular, the magnetic field in a particle accelerator can be released from the relocking of the movable one, the clock 170 resets at time i ₀ in 45 machine parts, with the gear. At time t _t , this provides the circuit establishing the connection between the chamber 76 with an actuation pulse, which moves it to its second 44 and the pressure accumulator 49 to trigger the position, thus limiting a switchover of the descent of the cuff 38, which then valve 47 causes the accumulator 49 to be connected to the chamber 44 under the wire from the release of the tongues 30. The pressure of the chamber 44 onto the cuff 38 begins to rise again as a result of the pressure in the chamber 54 increasing. During the descent of the relaxation force exerted is much greater than that exerted by the pressure in piston 14 and the tongues 30, this force exerted against the chamber 54. Therefore, the cuff 38 moves on and pushes it quickly down into the chamber and releases the mer 54 so that the pawls 34 between tongues 30 free. These bend inward, which can place the sleeve and the housing 20. Pawls 34 slide past the bulge 36, since the force exerted on the cuff by the pressure in the and the movable machine part is relatively large through the chamber 54 is the force acting on the actuating piston 18 and the cuff has little inertia, upward pressure cracked. it is immediately in the upper position (locking

As the piston rises, 60 position) returned.

the pressure difference between the ab- To facilitate this movement is the upper one

divisions 22 and 24 and then reverses, with edge 37 of the sleeve 38 beveled, and the

the kinetic energy of the piston (and the inflammation also end in an inclined surface 35.

Tension piston 14) by compressing the in The tongues can so on the edge 37 of the man-

the compartment 24 contained gas is absorbed. 65 slide 38 sleeve and into the locked position

Hold down during this entire first operating phase.

the synchronization device 166 the space 52 The in F i g. 2 provides the embodiment shown

by means of the valve 58 with the outlet conduit 62 gives generally satisfactory results. she owns

Claims (3)

7 ' ⁸ however- a small disadvantage: the mistakes in the movable part in the course of his descent movement Synchronization, albeit low, causes vibration to approach its highest value (point t ₂ in FIG. 4), In the long run, the cylinder 82 is actuated to prevent the valve 80 from being damaged the tongues 30 can lead. On the other hand, should be such a force to press on his seat that large bubble chambers operating times of about 5 to compensate for a back pressure of 2 to 3 bar A million floats with no risk of the can. The valve thus allows the Malfunctions and without interfering with the locking oil from the compartment 68 into the actuation space 52 ', reach mechanism. In this case, however, one will close almost instantly as soon as the preferably the one shown in FIG. 3 shown modified direction of the oil exchange begins to reverse Use the embodiment that causes the shocks (point / ₃ ), and prevents the piston from rising, switches or at least very strongly attenuates. Because of the closing of the valve 80, the For the sake of simplicity, the same parts as in FIG. 2 moving machine parts in a not exactly defined or those that have a counterpart named position in this figure, but which are above the sit, in Fig. 3 with the same reference number under the position of the mechanical lock seen Add an index line. 15 is locked, since there has been no locking In the entire lower part up to and including the losses and no energy is supplied, the actuating piston 18 'is the device of FIG. 3. The rapid opening of the table in the lei with that of FIG. 2, however, the valve 58 'provided for the actuator 72 (which should have a large flow space 52' in this case with a cross-section in the bell) is limited by an additional valve seat 64 arranged in 50 ', which the valve 20 pulse for the descent of the movable machine part closes the housing and cooperates with a valve 80 until it is beyond its locking position (section acts through a hydraulic pressure pot 82 T ₃ T _{4 of} the curve in FIG. 4). The piston can then be mechanically locked away from its seat with an adjustable force by pulling or pushing back on it. causes the cuff 38 ', 40' to rise again. The actuation chamber 25 and the line 72 can close again through a line 56 '. Finally, 52 'either equates to a pressurized one by opening the valve 74 to supply the pressures in the hydraulic medium or to reconnect the opening with the outlet actuation chamber 52' and the compartment 68. The interior of the. and by means of the bell 50 'provided in the line 72 above the valve seat 64 through the valve again sets the correct oil volume in the freely movable piston 67 in an upper compartment 68. Finally, the valve 80 is opened. Division 66 and lower division 68 divided, the one. It should be noted that the valve 80, although it represents an energy store through which the cavitation opening of large diameter closes, to the hydraulic fluid in the actuation space of its actuation requires little force as it is prevented. When the valve is open, it only comes into operation if the back pressures acting on the valve seat 64, a connection with a large cross-section 35, are low,
between the actuation space 52 'and the lower The PeriAbteilung 68th possible with this embodiment is obviously somewhat smaller than with the The compartments 66 and 68 are each by a device according to Fig. 1; however, the duration may be closable conduit 70 with a relative reciprocating motion, including the proportional low pressure (e.g. 10 bar) can be easily reduced to about 150 msec. Pressurized gas source or by a likewise closable variant of the possible execution Line 72 with a supply line for hydraulic forms should be mentioned as follows: The space 66 is lischem medium connected under pressure. instead of being connected to a supply with «inem Finally, the actuation space 52 'can be controlled by constant pressure gas with a three-way valve a connection 45 provided with a valve 74, through which one can supply pressure energy (similarly to the chamber line connected to the lower compartment 68 in FIG. 2). In will. 'In this case, the plunger 48' can be used without The device according to FIG. 3 works as in tion of liquid under pressure in the chamber 52 ' F i g. 4 on a movement diagram schematically up to below its mechanical locking shown as follows: At the beginning, the locking position holds 50 be pushed back. The hydraulic device the tongues 30 'and holds the movable locking then takes place in a not exactly forward Part in spite of the position seen acting on the actuating piston 18 ', but can of course the power back. The valve 74 and the valves of which other modifications can also be made. Lines 70 and 72 are closed. In the abbey ■ ment 66 there is a gas pressure of about 10 bar. The 55 claims
Valve 80 is kept open by going in the cylinder 82 a hydraulic pressure is generated in order to equalize the pressures. Subsequently, at time i ₀ , effected. lent part of the expansion device one to the descent of the cuff 38 '. The moving bubble chamber, in which one of the moving machine parts is thrown upward by the actuating piston in the chambers 24 'and 22' due to the pressure difference, a high gas pressure difference between two reaches its end position at time J ₁ (F i g. 4) separated pressure chambers in the sense of the expansion and strikes back under the effect of the pressure of the bladder chamber filling liquid forwards reversal in the compartments 22 'and 24'. In the course 65 is moved and after braking and this descent, the piston 67 moves to prevent stopping of the movable part of this under the occurrence of negative pressures in the actuation space supported by the application of a pressure of 52 '". Working medium on one with the moving one οδs Part firmly connected plunger is moved back to its original position, thereby characterized in that the movable part (16) initially in one of the compression state the bubble chamber is held mechanically locked corresponding to certain position that then the lock is released to allow the forward movement of the actuating piston (18) the gas pressure difference to enable braking and stopping of the actuating piston by reversing the pressure difference between the two separate pressure chambers (22, 24) and that finally after the by applying the pressure of the working medium to the plunger piston (48) Return of the movable part (16) in or above the compression state of the The movable part (16) is in the specific position corresponding to the specific position of the bubble chamber Position is locked again mechanically. 2. According to the method according to claim 1 working expansion device of a bubble chamber with an actuating piston firmly connected to the moving part of the device, with a fixed housing surrounding the moving part, in which there are two pressure chambers separated by the actuating piston one firmly connected to the movable part and one together with the fixed housing Actuating space for a working medium delimiting plunger and with facilities for Generation and control of the pressure of the working medium that is effective in the actuation space, thereby marked that the two pressure chambers mern (22 and 24) with devices (26 and 28) for generating the gas pressure difference between the two pressure chambers are connected that a locking device (30, 36, 38) for secure mechanical locking of the movable part (16) in a certain position against the pressure force exerted on the actuating piston (18) is provided and that a Synchronization device (166) is provided and designed such that they are sequential the unlocking of the movable part (16) triggers, then the generation of an overpressure of the Working medium in the actuation space (52) triggers as soon as the moving part has reached a End position under the effect of the reverse pressure difference between the two pressure chambers (22 and 24) its backward movement begins, and finally the locking device (30, 36, 38) in the sense of locking the movable part (16) in the specific position actuated. 3. Expansion device according to claim 2, characterized in that the locking device a stop bulge (36) on the housing (20), fixed to the movable part (16) connected elastic tongues (30) which are fastened with pawls (34) against the stop bulge (36) can apply, and a cuff (38) comprises, which by pneumatic actuators (40, 44, 45, 47, 49) between a position in which it releases the tongues (30), and a position in which they bend the tongues (30) and free them from the stop bulge (36) is prevented from being displaced. 1 sheet of drawings