DE1027615B - Pit stamp - Google Patents

Description

Pit punch The invention aims to improve a multi-part adjustable-length metallic pit punch with a friction lock that goes through a flowable pressure medium acting in an expandable chamber is tensioned. It has already been proposed for this type of punch that the setting load or to use the rock pressure to tension the lock. To reach this goal, so far mechanical intermediate links, preferably a linkage, have been proposed. It should be a compression bar or a tension bar by changing its position under the influence the rock pressure act more or less strongly on the pressure medium of the lock, and tension it accordingly.

The invention consists in that a hydraulic ram head pressure chamber with the hydraulic lock pressure chamber through a line in hydraulic communication stands.

In the following, for the sake of simplicity, the following are named: Stamp head pressure chamber with head chamber and lock pressure chamber with lock chamber.

In the design according to the invention, the rock pressure is always immediate brought into effect on d'ie lock chamber and: the lock according to the respective Mountain pressure more or less strained, with full utilization of the mountain pressure. In contrast, can. the known mechanical transmissions through a linkage absorb only a fraction of the rock pressure acting on the stamp :. she In addition, they only have a limited setting range and are ineffective when its limit is reached.

The stamp can be set by pulling out the inner stamp underneath Use known devices take place. It is also possible to use compressed air or hydraulic fluid to put in the outer stamp under the inner stamp. The through. the setting generated Pressure in the head chamber affects the lock chamber with practically no loss off and. cocks the lock. If the rock pressure then rises, i. H. the charging of the Stamp, then the lock tension is automatically increased. To rob of the stamp only needs one on one of the chambers or their connecting line Volume enlargement device to be provided to the pressure medium tension take away and bring the stamp to sink in. This can include, for example a screw bolt protruding into the pressure chamber is used accordingly. turned back will..

According to the invention, it is also proposed that the load-bearing cross section to make the head chamber smaller than that of the lock chamber. You then get one positive pressure transmission and thus an increased pressure compared to the stamp load Sehloßspa.nn.ung. It is suggested to make the connection line so narrow or to be provided with a throttle, that probably the usual slower descent movements of the hanging wall act immediately on the lock, but that sudden stresses. as they occur with rockfalls, only after a certain delay increasing the lock tension, so that the lock friction by the blow still overcome and the stamp is shortened accordingly. Of course you can too a high pressure or safety valve, as known per se, be provided., to keep the lock tension within the necessary limits and to keep the stamp in front Protect overload.

It is of particular advantage to have the head chamber, as is known per se, to be designed as a setting device by connecting it to a pressure transducer which is also connected to the lock chamber. Head chamber and lock chamber stand in the process, they are hydraulically connected to each other via the pressure transducer. The setting then takes place by expanding the head chamber by the pressure transducer, at the same time Tensioning the lock by means of the lock chamber, which is also pressurized.

The usual pumps, if necessary, can be used as pressure transducers. in the Internal ram installed, or external pumps with appropriate connections be used.

It is particularly favorable if the pressure transducer consists of an intermediate head chamber and lock chamber arranged further chamber, the capacity of which can be reduced is. Any valves and the like that are used when pumps are used as pressure transducers are necessary, are then avoided and the stamp is largely immune to failure made. According to a further proposal of the invention, it is advantageous the pressure transducer chamber from the inner die wall as a cylinder, a transverse wall formed as a cylinder base and a piston which is mechanically axially movable. This can be done by a screw spindle and bevel gears that can be operated from the outside are, take place, but clamping wedges or the like. Means are also suitable. Are there a pipe connection from the pressure transducer chamber to the bottom and piston Head chamber and the lock chamber provided.

To improve the pressure medium chambers at the high pressures that occur to be able to seal "one has used in these already stretchable bladders, which are adapt to the changing volume of the chamber. In the further development of the inventive concept it is proposed to encircle the bladder with one or more rubber rings or the like, by which the bladder is more or less folded with a reduced chamber volume will. As a result, the bladder always retains its correct operating position.

In the case of a pit punch with a lined by an expandable bladder Lock chamber at the lower end of the inner punch is advantageously the bladder in laid a pot insert, which is formed by a bottom with a radial direction the longitudinal axis of the punch bent upwards: approaches as cylindrical. Sheathing the Bladder. This has the advantage that the pot insert largely and without special Exertion of force is able to follow the expansion or shrinkage movements of the bladder and the rubbing in a particularly favorable manner by this generated closing tension. on the Außenstempelinnen.wandung transmits, with the loading of the inner stamp Transferring approaches are only used on train and are therefore proportionate slim. can be held. The arrangement of several pot inserts is an advantage into one another, in such a way that their mutual parting lines are offset from one another. The bladder itself can. in this way not directly on the inner wall of the outer die rub and will therefore. largely spared. It is useful here, as well the approaches of the inner insert, against which the bladder rests, towards one another, running towards one another to be sharpened, so that with the stretching or especially with the shrinking movements no jamming and thus damage to the outer surface of the bladder can occur.

The external use should be based on a further inventive proposal consist of a material with particularly high friction, vertes. But he can also use his the outer surface adjacent to the outer die with such a material in whole or in places be occupied. The series closure of the lock is thereby not insignificantly improved. The use of friction linings is inherent in other types of friction locks already known.

The stamp of the invention is also well suited for education an extension frame by adding two or three such stamps with head and foot caps provided by an articulated connection of at least the head cap lying on the hanging wall can be assembled into a team. The setting takes place from a central point from by supplying pressure medium in the outer stamp under the inner stamp. In addition the connection to the compressed air line is sufficient. These are raised and thru the setting pressure generated is automatically in thanks to the training according to the invention Each punch of the extension frame, the lock is tensioned enough to keep the frame stable to keep. The ryinsetzenden mountain pressure then, as explained, the Die locks automatically tightened to the required level. That means a significant simplification in the overall structure. of the frame and its operation. You can use the hydraulic systems of all or without significant additional effort Connect individual stamps of a frame to one another in order to compensate for the Force absorption, especially to get from one point through central Resumption of pressure of the liquid to steal or move the frame the stamp to relieve. For this purpose only, for example, the head chambers of the individual ram to be connected hydraulically with the activation of a volume enlarging device, as already described. High pressure pumps, valves, etc. are no longer required.

If larger differences in height have to be managed by the extension frame, is of the described design of the head chambers as a setting device use made. A common pressure transducer chamber can be used for all stamps of a frame intended. be, which is advantageous in or on the foot flap of one of the stamps.

Various exemplary embodiments according to the invention are shown in the drawing shown.

Fig. 1 shows a schematic of an embodiment according to the invention, Fig.2 in Longitudinal section of an embodiment, FIG. 3 shows a section along the line II-II and FIG. 4 shows a section along the line III-III; 5 shows a modification of this in a longitudinal section, FIGS. 6 and 7 enlarged cross sections through the head chamber in different operating positions and FIGS. 8 and 9 details of the pot insert for the bladder as part of the friction lock ..

The inner punch 1 carries one against it at its upper end. axial movable and sealed, at the same time serving as a punch headL hood 2 and forms with this the head chamber 3. The lower end 4 is provided with the Schiloßkainmer 5, which is extensible to the outside and the. Frictional engagement on the inner wall of the. Außensternpels.6, in which it is guided in a sliding manner. Chambers 3 and 5 are through, a Tube 7 or the like. Interconnected.

If the stamp is set, d. H. the inner stamp pulled out upwards, for what purpose devices known per se can be used, for example Setting wedges reaching under the inner punch or acting on it from below by compressed air, as is known per se, then in the head chamber 3, which is initially is in its highest position, by pressing down the hood 2 in the Chamber 3, chamber 5 and line 7 is pressurized liquid and thereby the lock chamber 5 is stretched and thus the lock is tensioned. The Stamp stands. If the rock pressure increases, further increases, even if only slightly Downward migration of the hood 2, the pressure in the lock chamber 5, so that the lock tension and thus the lock friction increases. By appropriate choice the load-bearing cross-sections of the head chamber and the lock chamber can. one without further ado adjust the lock tension to the punch load. It is advantageous to do so. the load-bearing cross-section of the head chamber selected to be smaller than that of the lock chamber. That Robbing the stamp is easy by increasing its volume, for example the head chamber 3, possible by the protruding into this, indicated with 2 a Screw is turned back more or less.

In the embodiment according to FIG. 2, the head chamber 3 is designed as a setting device by assigning the pressure transducer chamber 8. The chamber 8 is formed by part of the wall of the inner punch 1, an outer wall 9 and a movable piston. 10. The line 7 leading through is connected to the chamber 8 through openings 11.

The piston 10 can, through a screw spindle 12 and bevel gears 13, 14 over a square 15 or the like. Are axially displaced.

The inner punch 1 is extended by means of loading Compressed air or the like, which through the connection indicated by 16 in the outer die6 can be given. When approaching the hanging wall or a cap, how already described, a pressure increase in the head chamber 3. which is also immediately acts in the lock chamber 5 and cocks the lock so that the stamp is. The hood 2 should not be in its highest position, but in a Located in the middle or a little lower, by lifting as a setting device to be able to work. For this purpose, parts 15, 14, 13 and 12 of the piston 10 approached the transverse wall 9 and the volume of the pressure transducer chamber 8 is reduced. This has at the same time an increase in the pressure in. The lock chamber 5 and thus further tensioning of the ram lock result. Dodge further. can however chamber 3 only by increasing the volume. The hood 2 moves upwards, see above that the setting load of the punch increases, so the punch with the desired Bias is set. If the rock pressure rises, the tension rises too in. The head chamber 3 and thus the voltage in the lock chamber via the line 7 5.

The Schloßka, Mmer 5 contains a pressure fluid receiving expandable bladder 20, which is enclosed by two nesting pot inserts. According to Figures 8 and 9 exist. these pot inserts each consist of a base part with radial approaches. The bottom part of the inner pot insert is with 23, whose Approaches with 24, that of the outer pot insert with 25 and its approaches are with 26 designated. The lugs 24 and 26 are bent up in the direction of the longitudinal axis of the punch and, serve as the cylindrical casing of the bladder! 20 ,. This has the advantage that the. Bladder without essential. Power dissipation effective as a lock clamping body can be. The approaches 24 and 26 are claimed exclusively on train and. can, therefore. be kept thin. The outer lugs 26 are expedient As already stated, designed as a friction body with a particularly high coefficient of friction. The bladder is not trapped or its surface is damaged because the inner lugs 24, against which the bladder rests, sharpened to run towards one another are.

In the embodiment of Figures 5, 6 and 7 is in the head chamber 3 and, in the pressure transducer chamber 8, also a bladder indicated by 30 for receiving contained in the hydraulic fluid. These: bubbles 30 are encompassed by a rubber ring 31 and. become more or less of this according to the respective chamber volume folded, as in particular from the. Figs. 6 and 7 can be seen. Keep the bubbles thus always their correct position even with different chamber volumes, so that they don't get jammed. can. It can, even several; Rings 31 one above the other be arranged for multiple folding of the bubbles. By choosing the voltage of the Rings 31 one also has in the hand a certain, only low pressure in the chambers to maintain, in particular to the hood 2 when the punch is unloaded in in a middle position or a little above the lowest position, so when setting the necessary evasion downwards and thus a pressure in the lock chamber to tension, the lock is done before by reducing the volume of the pressure transducer chamber 8 the actual setting process and the final tensioning of the lock takes place.

So that when setting the load by increasing the volume of the head chamber 3 does not take place earlier than the increased lock tension required for the increased load is achieved by expanding the lock chamber 5, the inlet of the line 7 into the head chamber 5 is throttled, as indicated by 32. This throttle 32 then also serves, as already stated, as a safeguard against rock blows.

The pit stamp after. the invention is characterized by its expedient and reliable construction. Mechanical, easily causing breakdowns Parts are largely avoided, as are valves and seals, which one Are subject to wear and tear.

Claims (11)

PATENT CLAIMS: 1. Multi-part variable-length metallic Pit ram with a friction lock that is locked by an expandable pressure chamber acting flowable pressure medium is hydraulically tensioned, characterized by a stamp head pressure chamber (3) connected to the lock pressure chamber (5) through a line (7) is in hydraulic connection, so that the rising rock pressure increases Pressure part tension of the Steinpelkopf pressure chamber in the lock pressure chamber to the effect comes. 2. Gruhenstempel according to claim 1, characterized in that the load-bearing Cross section of the head chamber is smaller than that of the lock chamber to obtain a increased lock tension compared to the punch load. 3. Pit punch according to claim 1 or 2, characterized in that the extendable designed as a setting device Head chamber and the lock chamber connected to the same pressure transducer and over these: are hydraulically connected to each other. 4. pit punch according to claim 3, characterized in that the pressure transducer consists of one between the head canister and the lock chamber arranged further chamber, the capacity of which is mechanically reduced is. 5. pit punch according to claim 4, characterized in that the pressure transducer chamber from the inner punch wall as a cylinder, a transverse wall as a cylinder base and a piston is formed, which is mechanically, preferably by screw spindle and bevel gears, which are to be actuated from the outside, can be moved axially, being through Bottom and piston each have a pipe connection to the head chamber and, are provided for the lock chamber. 6. Pit punch according to one of the previous ones Claims with an expandable bladder inserted into the liquid chambers, characterized in that draws that the bladder is spanned by one or more rubber rings or the like for folding the bladder with reduced chamber volume. 7. Pit punch after a of the preceding claims with a lock chamber lined with an expandable bladder at the lower end of the inner stamp, characterized in that, ß the bladder in one Pot insert is formed by a bottom with radial. in the direction of the longitudinal axis of the punch upturned approaches as a cylindrical sheath of the bladder. B. Pit stamp according to claim 7, characterized by. several pot inserts one inside the other with staggered lying parting lines of the approaches. 9. pit punch according to claim 8, characterized. marked, d, ate the approaches of the inner insert, against which the bladder rests, to each other are sharpened. 10. Pit punch according to claim 8 or 9, characterized in that that the outer insert is made of a material with a high coefficient of friction the outer surface adjacent to the outer die with such a material in whole or in places is occupied. 11. Pit punch according to one of the preceding claims, characterized through the use of expansion frames.