DE1943279B2 - PRESSURE POINT KNIFE - Google Patents

Description

The invention relates to a pressure peak meter for the measurement of pressure peaks of periodically changing gas pressures with a piston on which the gas pressure acts, with a measuring part which is loaded by a measuring spring and interacts with the piston. a Haitcorgan. which allows only movement of the Meßtcils against the MctSfcder, and with a part connected to the measuring part display member, the result of during a measurement duich extending adjusting balance / wipe the maximum over the piston of the measuring member acting Gd, ick the pressure maximum occurring and the spring force of the measuring spring arrived I dstellung the measuring part displays.

Pressure peak meters of this type are z. B. from Swiss patents 270292 and 288472 known. With these, a measuring spring is compressed by the gas pressure acting on a piston, a holding part relieved of load when the measuring spring is compressed by a spring is moved that et compensates for the play caused by the compression of the measuring spring and

jalui de!) measuring part in its own right of measurement I hold on to my hand. From this final position came

ten handwriting. From this bonded position the maximum compressive force can be determined, which acted on the piston,

As a rule, with pressure tips of this type there is a bellows between the piston and the gel, which allows the piston to move and protects the back of the piston from the action of the gas pressure. _1Q

Ud the previously known designs of this pressure tip meter, the piston must be measured at a measuring point cover the full distance by which the MeLM'eder is deformed. In the interests of accuracy The measurement is based on large defoniiaiions interested in the pen. However, if the Ckiat is to be trained for high pressures, so is it is necessary to design suitable bellows which the; withstand great pressure and be able to absorb large footpaths. There is also ao when using large bellows and Uei measurements hot gases such as B. when measuring peak * vlrueken in diesel engines, the disadvantage that the Bali; ». ' have a large surface area and therefore as a warning of the measurement.

\ i> of the German Auslegeschrift 1 100 331 is a .. · device for measuring the maximum values of pressure peaks known, which has a piston, dei under the influence of the medium to be measured gei: ι a spring force to move against a stop M. Otherwise, however, this version differs, as far as its principle is concerned, it essentially depends on the pressure gauges, with their further development di ·: The present invention is concerned.

The invention has the creation of a pressure sharpener.inesscrs of the kind mentioned to the goal, which does not have the disadvantages mentioned and in which the sealing of the piston is made possible by a short bellows, which is resistant to high pressures and has a small surface area.

The pressure peak meter according to the invention, by means of which this goal is achieved ν ird. is characterized by that the piston in a known manner opposite in the direction of movement of the measuring part This movable and with a return movement of the piston ni.ch any effect of the gas pressure causing spring is provided. that to limit the movement of the piston under the influence of the gas pressure a stop is provided and that / wipe the piston and the measuring part after each return movement of the piston between the measuring part and the piston by the action of the Halleorpan's resulting play-compensating adjuster provided M

By the invention, an embodiment of the pressure peak knife is geschatfen, in which d ^ r Piston does not need to follow the full movement of the measuring part with the measuring spring. After the measuring part was raised against the force of the measuring spring when the pressure rises, is through the Nachsteltorgan the distance between the piston and the measuring part is compensated, so that the piston is always in its original position is brought back and is still fully effective. Sufficient for this version For actuating the pressure peak meter, slight piston strokes in the size range of η 1 mm. which can also be made of a short membrane that is capable of withstanding high pressures without difficulty can be included. This increases the lifespan of the device when it is measured less heated by hot gases and is also more precise than previous devices of this type.

The invention is based on an exemplary embodiment shown schematically in the drawing explained. It shows

F i g. I a longitudinal section of a pressure tip knife according to the invention and

FIG. 2 the section 11-11 from FIG. 1.

In Fig. 1 is a section of a pressure tip knife 10 shown, which contains a housing consisting of housing parts 11, 12, 13, 14, which with the help of a conical part 16 and a union nut 17 on a threaded pin to one measuring machine can be screwed on. The housing parts 11, i2, 13, 14 are rotatable Enclosed sleeve 15, which by a toothing 15 ', the corresponding grooves in the Union nut engages with the nut 17 is connected. With the help of the sleeve 15, the device be screwed on by hand. In the housing part 14 is formed rn axial channel 18 through which the gas pressure to be measured can be supplied. In the housing part 13, which opposite the housing part 14 is sealed, a bellows 20 is sealingly attached in a bore, which: nit its other A piston 21 encloses the end. The piston 21 is provided with a protruding screw 22 which is carried out through a bore in a disk 23, which is formed with the housing part 12 in one piece is. In the resting state is located between the piston 21 and the side facing it Disk 23 a distance S, the size of which is about 0.1 mm in the present case. Between the Piston 21 and the disc 23 is a Disk spring 24, which holds the piston 21 at this distance from the disk 23.

In a bore of the housing part 11 is a round flange 25 of a measuring part with its outer surface 26 led. The flange 25 is guided by a pin 27 in a slot 28 in the housing part 11 is secured against rotation with respect to the housing part 11. The measuring part 26 includes a to the Sleeve 25 adjoining cylindrical part 30 with e.ncm internal thread 31, on which a part 32 with an external thread 32 '. Disc springs are arranged around the cylindrical part 30, which on the one hand gescn the flange 25 and on the other hand via parts 34 and 35 against the housing part 11 support. The discs form together die Vießfedei 30. those to be measured by dtn Pressure is deformed and its deformation to Determination of the maximum pressure is used

On the part 32 of the measuring part 26, a holding part 36, which has the shape of a threaded bushing, is screwed on. The thread of the part! 32 as well as the hall part 36 is self-locking. The holding part 36 is connected to the inner end of a spiral spring 37, whose outer end is attached to a cylindrical sleeve 38 which is connected to the upper end of the housing part 11 is firmly connected. The spring 37 is arranged in such a way that it rests on the holding part 36 during operation acts with a spring force directed in such a way that the holding part 36 tends to be in the thread of the measuring part 26 in the figure to be screwed down

5s. However, since the holding part 36 is at its bottom End face against a surface 35 'of the in the housing part 11 attached part 35 is supported, such a movement by friction is under at rest the influence of the measuring spring 33 prevented.

Tm internal thread 3t of the cylindrical part 30 of the measuring part 26 is a pin-shaped adjustment part 40 screwed in, which is provided with a flange 41 at its lower end. which is at rest on the surface 23 'of the disk 23 facing away from the knee 21. Also is the adjustment part 40 provided with a pin 42, which extends in the axial direction through the measuring part 26 according to extends outside. At the outer end of the pin 42, a connecting part 43 is attached to which the inner end of an adjusting spring 44 is attached. The outer end of the Nachslellfeder 44 is in the same, not shown attached to the sleeve 38 as that of the spring 37. The spring 44 is arranged in such a way that she has the endeavor in the company. the adjustment part 40 in the thread 31 from the measuring part 26 outwards, d. H. in the figure down to screw. However, this movement is in the rest state by the bearing of the flange 41 on the surface 23 'of the disc 23 and prevented by the resulting friction, since the flange 41 by the spring 30 is charged.

Between the connecting part 43 and the holding part 36 is. as shown in FIG. 2 can be seen. one Connection in the manner of a toothed coupling with large play is provided provided with projections 45 which engage in recesses 46 in the end of the holding part 36. The tooth coupling allows a common movement of the two parts 36 and 40 from the outside, in particular to a reset to a starting value. Tm are operating because of the game Projections 45 in the recesses 46, the two parts mutually freely movable.

For the mentioned movement of the parts 36 and 40 as well as for reading the measured values is at the upper end of the pin 42 of the adjustment part 40 is attached to a cap 48 by a nut 47. The cap 48 is provided on its lower edge with a scale which interacts with a mark arranged on the housing part 41.

Before starting a measurement, the two parts 36 and 40 are brought into an initial position by the cap 48 brought the z. B. on the scale of the cap 48 with "0-" can be designated. The individual parts of the measuring device are in the position the in the F i g. 1 is shown. The measuring device is then placed on the machine to be measured. z. B. the Cylinder of a diesel engine, screwed on, if there is is not already attached to it from a previous measurement.

If now pressure surges act periodically on the piston 21 through the channel 18, the piston 21 is lifted by the gas force thus generated, against the force of the measuring spring 33. The transmission of the force via the head of the screw 22. The flange 41 of the Adjustment part 40 and the thread 31 on the measuring part 30 takes place. The piston 21 can only move by the size of the distance S , since it then moves against the

ίο the stop formed by the disk 23 abuts. at this movement that. as already mentioned, can be minimal and in the present case z. B. 0.1 mm, the adjusting part 40 and with it the measuring part 26 is raised by the head 22. Together The holding part 36, which is lifted from the part 35, is also moved with the measuring part. Through this the friction between the part 36 and the part 35 disappears, so that the spring 37 the holding part 36 can turn. The rotary movement is continued for a long time until part 36 strikes part 35.

When the pressure is subsequently reduced, the piston 21 moves back under the influence of the spring 24. The measurement part 26 can not follow this movement, as it is retained by the retaining member 36, so that now between the flange 41 of the Nachstellteiles 40 and the SF ^N cibe 23, a gap would be created. As a result, however, the disk 41, which was previously held in place by friction, is released, which has the consequence. that the spring 44 rotates the adjusting part 40 until it strikes the disk 23 or its friction surface 23 '.

During the following pressure surges, the gas force acting on the piston 21 is always first the holding part 36 and then the adjusting part 40 is moved. As a result, the measuring part 26 gradually becomes moved upward in the figure, the spring 33 being compressed. This movement continues so long until the force of the measuring spring 33 * caused by the deformation is so great that it is of the gas force acting on the piston 21 can no longer be overcome. There arises a State of equilibrium in which the force of the measuring spring 33 is the same as that on the piston acting gas force, with which the measurement is ended.

Since the rotary movement of the adjusting part 40 of the stroke movement of the Mcßteiles 26 in the axial direction is proportional. the measured value can be read off the scale on the cap 48.

It is understood that various changes to the following claims as examples described and illustrated execution are possible. The adjusting element can thus act hydraulically and Z. B. be formed by a piston which is guided ir a bore of the measuring part. where appropriate nete valves are provided to the described » To ensure effect.

1 sheet of drawings

Claims (11)

Patent claims: 1. Pressure peak meter for the measurement of pressure peaks of periodically changing gas pressures with a piston on which the gas pressure acts, with a measuring part loaded by a measuring spring and interacting with the piston, a holding element that only allows the measuring part to move against the measuring spring, as well as with a display element connected to the measuring part, which indicates the maximum pressure occurring as a result of the position of the measuring part reached during a measurement by the balance between the maximum gas pressure acting on the measuring part via the piston and the spring force of the measuring spring, characterized in that, that the piston (21) is movable in a known manner in the direction of movement of the McQtcils (26) relative to this and is provided with a spring (24) which causes a return movement of the piston (21) after each action of the gas pressure. that to limit the movement of the piston (21) under the influence of the gas pressure, a stop is provided and that between the piston (21) and the measuring part (26) after each return movement of the piston between the measuring part (26) and the piston (21) d'-irh the action of the holding member (36) resulting play-compensating adjusting member (40) is provided. 2. Pressure peak meter according to claim I, characterized in that there. Adjuster (40) connected to the measuring part (26) by a self-locking thread (31) against the force the measuring spring (33) supported on a friction surface (23) and by one of the movement of the measuring part (26) corresponding, counteracting the direction of rotation generated against the force of the measuring spring (33) The adjustment spring (44) is loaded. 3. Pressure peak knife according to claim 2, characterized in that the Halteorean (36) is connected to the measuring part (26) by a self-locking thread. on a friction surface (35 ') is supported and loaded in the direction of rotation by an adjusting spring (3). 4. Druckspit / enmesser according to claim 1, characterized in that ¹ , the piston (21) through a bellows (20) opposite the housing (12, 13, 14) of the Druckspit / enmesser «. is sealed. 5. Druckspit / enmesser according to claim 2, characterized in that dai3 / wipe the piston (2ll) and the adjusting element (40) in the housing (11-14) fixed, / ur direction of movement of the piston vertical disc (23) is arranged. wclchi forms the stop, on which the piston (21) has the opposite side of the friction surface interacting with the Vichstellorgan (40) and has a central opening through which a part (22) connected to the piston (2ii) is passed, which is used for supporting is determined on the adjusting element (40). 6. peak pressure knife according to claim 5, characterized in that the adjusting member (40) the shape of a pin screwed into a central threaded hole of the measuring part a has, which on its the piston (21) facing find a flange (41) which has a Has friction surface which is intended to interact with the friction surface of the disc (23). 7. Pressure peak meter according to claim 6, characterized in that the measuring part (26) on its end facing the piston (21) has a flange (25), on one side of which the measuring spring (33) is supported and the other side of which forms a surface for supporting serves on the flange (41) of the adjuster (40) in the rest position. 8. Pressure peak knife according to claim 7, characterized in that the adjusting member (40) with a pin (42) guided to the outside through an axial bore in the measuring part (26) is provided, with the help of which the position of the adjusting element (40) relative to the measuring part (26) can be influenced from the outside. 9. Peak pressure knife according to claim 8, characterized in that the readjusting spring (44) of the adjusting element (40) with the outer end of the pin (42) of the adjusting element (40) connected is. 10. Pressure peak knife according to claims 2 and 9, characterized in that the Haheorgan takes the form of a sleeve enclosing an external thread (32 ') of the measuring device (26) (36) which is arranged at the end (32) of the measuring part (26) facing away from the piston (21). and that the sleeve (36) with a member attached to the end of the pin (42) of the adjusting member (43) is connected by a tooth coupling (45, 46) which has sufficient play. 11. Pressure peak meter according to claim 8, characterized characterized in that at the end of the pin (42) of the downstream element (40) a manually operable with an adjacent part (11) of the housing coiled together with the cap (48) and that a mark is formed on one of the parts and a scale is formed on the other.