DE1231194B - Multi-stage hydraulic pit ram - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

E21d

German class: 5 c- 15/44

Number: 1231194

File number: R 36680 Vl a / 5 c

Filing date: November 29, 1963

Opening day: December 29, 1966

The invention relates to a multi-stage hydraulic pit ram with at least three telescopically guided tubular ram parts, whereby a common stamp pressure space and a common one for all telescope stages Relief valve is provided and the effective piston areas of the individual telescopic stages are the same or are almost the same, so that the ram is approximately the same over its entire extension range Has load bearing.

A multi-stage pit punch of this type has already been proposed by German patent 1149 678 been. Such a stamp has the advantage that it is possible when using only a single relief valve Load bearing capacity that is constant or almost constant over its full insertion length owns. The stamp therefore does not have different load areas within the individual Telescopic stages, as is the case with known multi-stage telescopic rams. Because the stamp only a single fluid pressure chamber and only a single one for all telescope stages Has relief valve, it is significantly simplified in its structure compared to the known stamps and considerably improved in its operational safety.

It is already known to insert a hydraulic pit ram that is subject to a load on the hanging wall to bring about or support that an insertion cylinder inside the hydraulic ram is arranged with a support piston, which can be acted upon by the pressure of a pressure medium is that the insertion of the punch is effected under the application of pressure. Slide-in devices this type has already been provided for with multi-stage hydraulic rams, the three Have telescopic tubes. The slide-in cylinder is connected to the middle telescopic tube here, while the supporting piston sliding in the push-in cylinder with the one forming the lower punch Telescopic tube with the largest diameter is in connection. By applying pressure to the slide-in cylinder the middle telescopic tube can therefore be pushed in. Such an arrangement the push-in cylinder and the support piston has the disadvantage that the push-in cylinder is ineffective if, when setting the stamp, essentially only the middle telescopic tube, but not the smallest telescopic tube carrying the cap is also extended. In this operating state can the extended punch length using the push-in cylinder) not reduced, so the ram is a multi-stage hydraulic pit ram

Applicant:

Rheinstahl Wanheim G. mb H.,
Duisburg-Wanheim, Ehinger Str. 334

not be stolen, as in this case only the middle telescopic tube moves without the Take the smallest telescopic tube with you.

The invention is based on the object of providing a multi-stage hydraulic pit ram of the initially mentioned type, which is constant or essentially constant over its entire insertion area Load bearing has to be improved, in particular

ao other in the simplest way so that the effective piston area of the smallest diameter having telescopic tube, which normally carries the head plate or cap, over the usual level is also increased, so that the punch with a small diameter of the telescopic tubes has a high load-bearing capacity. The invention also aims to make the multi-stage telescopic ram so make sure that when setting, the telescopic tube with the smallest diameter always takes precedence over the whole Extended length and, on the other hand, always the telescopic tube when inserting the punch under load is fully retracted with the mean diameter, so that in all operating positions of the punch a sufficiently large insertion path is available for the telescopic tube with the smallest diameter stands.

According to the invention, a support piston is connected to the telescopic tube of the smallest diameter, that of the fluid pressure in the pressure chamber of the ram in the sense of the extension of this telescopic tube is applied. It is thereby achieved that the effective for the extension and insertion The piston area of the smallest telescopic tube is the same or approximately the same in area size Inner cross-section of the largest telescopic tube of the punch. The support piston is in a cylinder slidably guided, which is preferably connected to the central telescopic tube of the stamp so that it is taken along by this telescopic tube when it is pushed in and out. One is particularly useful Arrangement in which on the side of the support piston that is separated from the fluid pressure chamber of the ram

609 749/55

3 4

is a chamber within the cylinder invention in longitudinal section through a multi-stage is that of the pressure of a liquid pressure telescopic ram. According to the exemplary embodiment beraum independent pressure medium is applied to the stamp from three mutually displaceable can that when the stamp is stolen, the borrowed telescopic tubes 1, 2 and 3. The telescopic tube 1 Telescopic tube with the smallest diameter compulsorily 5 with the largest diameter forms which is inserted from the bottom. Inserting under stamp and is on its lower side with a The effect of the support piston can be achieved by means of a welded-on base plate la. The middle one the fact that said cylinder chamber of the support telescopic tube 2 carries a sleeve seal piston is hermetically sealed to the outside, so 11 sealed annular piston 10, which is in the TeIedaß When the punch is pushed out, the air is guided in the io skoprohr 1.

Cylinder chamber is compressed. The telescopic tube 3 is in the air by means of an annular piston Energy stored in the cushion is guided in the telescopic tube 2 when the 12 is opened. A cuff Robber valve in the sense of an insertion of the plunger 13 effectively seals the piston 12 with respect to the telescope. However, an embodiment is more expedient, tube 2 from. The telescopic tube 3 carries on his in the pressure into the cylinder chamber from the outside 15 upper end 3 α a (not shown) head plate liquid is pressed in when the plunger is stolen for the placement of a cap. Unless the stamp shall be. Such designs are above all part of a mechanically reversible extension The telescope with a wandering expansion element in the form of a pipe 3 at its head piece 3 α directly, purpose-frame, Frame or the like. Is used. 20 moderately over a joint, with the cap of the migratory

In a structurally advantageous manner is to be connected according to one of the expansion elements,
Another feature of the invention of the support piston with The telescopic tubes 1 and 2 carry on their upper piston rod at an intermediate piece end sleeves 4, in which slide rings are attached to the telescopic tube with the smallest stripping elements 5. The end sleeves 4 are arranged in diameter and with a connection 25 are fixed by dowel pins 4 α to the telescopic tubes for the introduction of the pressure fluid into the, which are driven through openings 4 b from the outside rod-stamp pressure chamber and expediently with a tial in annular grooves.
Connection for introducing a pressure medium into the telescopic tube 3 has, below its head, the named cylinder chamber of the supporting piston, piece 3 α an intermediate piece 6, which can be seen with one. The piston rod of the support piston is provided with a bore 8 through which the hydraulic fluid is preferably tubular so that the pressure medium is introduced from the outside into the piston pressure chamber from the outside via the hollow piston. In the intermediate piece 6 a further boring rod is inserted into the insertion cylinder tion 7, through which the stem can be stolen. pels a pressure medium, expediently also pressure.
surfaces of the telescopic tubes preferably so in their With the intermediate piece 6 is coordinated over an area size that when welded tubular piston rod 9 a support extension of the punch first connected to the telescopic tube piston 14, which is in a cylinder 16 with the smallest diameter, which usually slides 40 and by means of a sleeve 15 opposite the head plate carries, is extended before the cylinder wall is sealed. Slide out the cylinder 16 or the remaining telescopic tubes. On the other hand, at its upper end a cylinder base 17 is inserted under load on the hanging wall, through which the axially arranged piston tube 9 is passed next to the middle telescopic tube at full insertion. Retracted to seal the piston length before the telescopic tube provided with the smallest 45 tube 9 in the cylinder base 17 is inserted. Da- element 18.

is achieved by that in all operating positions The cylinder 16 is open at its lower end of the plunger a sufficiently large insertion path and here carries a stop 19 on the outside, which is arranged so that with the help of the support piston is inevitably inserted that when the telescopic bar is pushed out Telescopic tube of the smallest diameter for connecting 5 ° tube 2 of the cylinder 16 through the stop 19 is available. The punch according to the invention requires a ring shoulder 10 a of the ring therefore only for a single insertion depth, namely piston 10, is taken along,
the one that is formed by the telescopic tube with the small The multi-stage telescopic ram has in the inner diameter, an insert only a single pressure space for all pistons. 55 telescopic steps. The pressure fluid introduced via the bore 8 in the intermediate The invention thus creates a stamp of piece 6 flows downwards of a simple design, which is constant or gap 20 between the telescopic tube 3 and through a ring through the telescopic tube 3 and through a ring which has an approximately constant load absorption. Aut cylinder 16 and through another annular gap 21 due to the large effective piston area of 60 between the cylinder 16 and the annular piston 10, the smallest telescopic tube, the load bearing of the telescopic tube 2. From here, the pressure ram can be enlarged without the diameter of the liquid through a bore 22 in the cylinder 16 in telescopic tubes must weden increased. Since the supporting space flow under the supporting piston 14,
piston can also be used as a robbery piston If the stamp can be used as a single stamp, the effective piston 65 is enlarged, the relief area can be arranged in the intermediate piece 6 practically without the use of additional robbery and filling valves.
Components achieved. When using the stamp in connection with

called valves, however, be arranged outside of the stamp.

To steal the stamp, hydraulic fluid is introduced into the cylinder chamber 23 above the support piston 14 via the bore 7 in the intermediate piece 6, the piston tube 9 and transverse bores 9 a. Since the support piston is connected via the tube 9 to the telescopic tube 3, which has the smallest diameter, only this telescopic tube is retracted when the pressure fluid is introduced into the chamber 23.

The piston surfaces of the individual telescopic stages that are effective for the insertion and extension of the telescopic tubes are matched to one another in their area size in such a way that initially when the ram is extended the telescopic tube 3 with the smallest diameter is extended to its full length before the middle telescopic tube 2 extends. When inserting the punch under mountain loads In contrast, the middle telescopic tube 2 pushes in first, before the telescopic tube 3 with the smallest Diameter in turn begins to push in. This ensures that for the insertion of the ram under the action of the supporting piston 14 working as a robber piston in each Operating position a sufficiently large insertion path for the telescopic tube connected to the piston 3 is available.

The effective for the input and extraction of the telescopic tube 3 piston area F ₃ is composed of the faces F ₃ ', F _3' and R ₃ "', wherein R _3' the annular surface of the piston 12, F acted on _3" by the liquid pressure The annular surface of the intermediate _{piece 6 and F 3} '"is the circular surface of the support piston 14. Because the effective piston area of the telescopic tube 3 is increased by the area F ₃ '"of the support piston 14, the area F ₃ corresponds in size approximately to the inner surface of the telescopic tube 1 (circular area with the inner diameter of the telescopic tube 1).

The effective piston area F _{2 of} the central telescopic tube 2 is calculated from the difference between the annular area F ₂ 'of the annular piston 10 and the annular area F ₂ "of the cylinder base 17. The two rakes F ₂ ' and F ₂ " are coordinated so that the area F ₂ "is a little, ie a few square centimeters larger than the area F ₂ '. There is therefore a force at liquid pressure in the ram pressure chamber for the central telescopic tube 2, which acts in the sense of the insertion of the telescopic tube 2, so that when Insertion of the ram under rock loads always pushes the telescopic tube 2 in front of the telescopic tube 3.

If hydraulic fluid is introduced into the punch pressure chamber via the opening 8 when the punch is set, the telescopic tube 3 initially _{pushes out under the action of the fluid pressure acting on the Hache F 3} (= F ₃ '+ F ₃ "+ F _3'"). The telescopic tube 2 does not take part in the extension movement, since the _{liquid pressure acting on the annular surface F 2} 'is balanced in terms of force by the liquid pressure acting on the somewhat larger annular surface F _{2 "} Back 14 a against the bottom surface 17 a

of the cylinder base 17, the piston surface F ₃ comes into effect for the extension of the telescopic tube 2.

Claims (5)

Patent claims: 1. Multi-stage hydraulic pit ram with at least three telescopically nested tubular ram parts, with a common ram pressure chamber and a common relief valve being provided for all telescopic stages and the effective piston areas of the individual telescopic stages being the same or almost the same, so that the ram takes approximately the same load over its entire extension range has, characterized in that a support piston (14) is connected to the telescopic tube (3) of the smallest diameter, which is acted upon by the hydraulic pressure in the pressure chamber of the ram in the sense of the extension of this telescopic tube (3), in such a way that the for the extension and insertion effective piston area (F ₃ ) of the telescopic tube (3) with the smallest diameter is equal to or approximately the same as the inner cross section of the telescopic tube (1) of the punch with the largest diameter. 2. Stamp according to claim 1, characterized in that the support piston (14) in one Cylinder (16) is slidably guided, which is shaped with the central telescopic tube (2) of the punch or is non-positively connected and on the side facing away from the pressure chamber of the stamp with a cylinder base (17) forms a chamber (23), through the pressurization of which the Telescopic tube (3) with the smallest diameter retracted at an accelerated rate when the punch is stolen will. 3. Stamp according to claim 1 or 2, characterized in that the support piston (14) with its piston rod (9) is attached to an intermediate piece (6) which is attached to the telescopic tube (3) with the smallest diameter is arranged and with a connection (8) for the initiation of the Hydraulic fluid in the ram pressure chamber and expediently with a connection (7) for the introduction a pressure medium is provided in the cylinder chamber (23) of the support piston. 4. Stamp according to one of claims 1 to 3, characterized in that the piston rod (9) of the support piston (14) is tubular and has a transverse bore (9 ä) to the cylinder chamber (23) of the support piston (14). 5. Stamp according to one of claims 1 to 4, characterized in that the effective for the extension and insertion piston surfaces (F ₂ , F ₃ ) of the telescopic tubes (2,3) are dimensioned so that the telescopic tube (3 ) with the smallest diameter and when inserting under rock loads, the central telescopic tube (2) is first of all extended or retracted with priority. Considered publications - German utility model No. 1778 211,
1836 609, 1866 313. 1 sheet of drawings 609 749/55 12.66 © Bundesdruckerei Berlin