DE1032200B - Hydraulically operated support element - Google Patents

Description

GERMAN

The invention relates to a hydraulic support element. In particular, it relates to hydraulic pit rams and other support and lifting devices used in mining. Under "Support elements" are understood to be those in a single cylinder design, in which two telescopically against each other movable parts, the cylinder and the piston, a pump for conveying the hydraulic fluid is installed from the storage space into the pressure space. In particular, these are individual pit punches. This also includes those with a multi-cylinder design in which, for example several pit rams are combined into a group and have a central pump. The stamp the group act like a single support element on a multiple of a single pit punch larger support surface.

The purpose of the invention is in such known support elements when the pushing together Improve robbery. The pushing together of such pit rams is initiated by valves, which Release the flow cross-sections between the pressure chamber and the storage chamber, so that the pressure fluid flows out the pressure chamber can flow back into the storage space.

Known support elements have means which, when the pressure fluid flows back into the storage space, equalizes the pressure in it with the outside air create a compression of the air in the storage space, causing a complete backflow the hydraulic fluid would prevent to avoid. It has been shown that this is the backflow The self-causing weight of the pushing-in piston is not sufficient to counter the Resistance of the piston seal and the dirt scraper device a sufficiently fast insertion to ensure. In addition, there is the large flow resistance of the generally small one Cross section of the robbery valve. Attempts have been made to increase the insertion force by means of a built-in tension spring improve, which is tensioned when the piston extends. The invention aims to achieve this with less to achieve great effort by using known suitable pump arrangements.

According to the invention, there is the space into which the pressure fluid flows when the support element is stolen, while flowing in under vacuum, d. H. under a lower pressure than the ambient air.

In the case of a single-cylinder support element, the storage space is in a preferred embodiment against the Outside air completely sealed. A storage room can be provided, which is completely pushed together State of the support element from the hydraulically operated support element

Applicant:

Rheinstahl Wanheim G.m.b.H., Duisburg- Wanheim

Dipl.-Ing. Wilhelm Wilkenloh, Duisburg-Wanheim,

and Erich Jäger, Duisburg-Neudorf,

have been named as inventors

Hydraulic fluid is filled. The storage room can be equipped with a vacuum pump or with a larger one Be connected to the vacuum space.

Likewise, in a preferred embodiment of a multi-cylinder support element, the is at Pump-empty-enlarging space in a container sealed against the outside air. The container can also be connected to a vacuum pump. In the drawing is the subject of the invention shown in two exemplary embodiments. It shows Fig. 1 a single-cylinder support element as a pit punch,

2 shows a multi-cylinder support element as a group of two pit punches.

The pit punch according to FIG. 1 has an inner punch 1 and an outer punch 3. The inner punch 1 ends with the piston 2 at its lower end. For the purpose of changing the length of the entire punch, it slides in the outer punch 3. When the punch is pushed in, the hydraulic fluid 4 is in the storage space 5 of the inner punch 1.To extend the punch, it is fed into the pressure chamber 7 of the outer punch 3 by a multi-stage pump 6 pressed. The pump 6 can be driven via an eccentric 14. When the eccentric 14 is rotated by means of a crank or the like placed on the square 16, the link 17 is first moved downwards. This takes the tube 8, on which it is attached, down with it. As a result, the piston 6 a of the pump 6 fastened on the tube 8 is pressed into the seal 6 b of the larger piston 6 c and thus the amount of liquid located in the cylindrical interior 2 α of the piston 2 is enclosed.

When the eccentric 14 is turned further, the disk 18, which is under the pressure of the

809 557/74

blow 19 adjacent spring 20 stands on the upper surface of the piston 6 c and pushes this piston 6 c downwards against the pressure of the spring 21 against the pressure of the spring 21, so that the liquid from the cylinder chamber 2 a along the cuff seal 22, which by the spring 23 is held, flows into the pressure chamber 7 of the outer die. The bore in which the seal 22 is guided is, like this seal itself, preferably slightly conical. With further rotation of the eccentric 14, the link 17, the tube 8, the disc 18 and the piston 6 a move and through the relaxing spring 21 the piston 6 c again upwards, so that in the uppermost position of the two pistons 6 a a spring 28 from its seat 29 presses so that the space 9 is connected to the storage space 5. Since the space 9 is connected to the pressure space 7 through the inside of the pipe 8, the pressure fluid can now flow from the pressure space 7 into the underpressure storage space 5, whereby the difference between this underpressure and the atmospheric pressure which is applied to the surface of the Piston 2 of the inner ram acts, causing an acceleration of the outflow.

In order to accelerate the outflow even more, you can turn the eccentric 25 push the valve body 29 so far into the cylinder 30 that the sealing sleeve 31 from the

and since-

and 6 c pressure fluid from the space 5 back in

the pump 6 can enter. The sleeve seal 15 hole in which it is guided emerges
prevents hydraulic fluid from being released from the through a large flow cross-section. Pressure chamber 7 enters the space la . This takes place in that the lower surface of the - The tube 8 carries at its upper end a link 26 on the upper edge 29 a of the valve hollow cylinder 36, the cross-section of which is larger than the body and, when the eccentric is turned further, cross-section of the tube 8. This hollow cylinder 36 20 ters 25 presses against the spring 32 downwards.

35

protrudes into the interior 9 of a cylinder 30 which is fastened to the inner punch 1 with pins 33. Of the Space 9 is closed by a valve 10, the valve seat 29 of which is formed by a cylindrical body is, which in turn can be used as a closure of the cylinder 30 and against the Inside of the cylinder is sealed by a boot seal 31, over which a spring 32 the body 29 pushes up. The body 29 is supported against an outer sleeve 34, which is also in the inner punch 1 and is supported against the cylinder 30 via disc springs 35. As long as the cylinder is 30 is closed, when the tube 8 moves upwards, liquid is transferred from the space 9 into the pressure space 7 displaced. When rotating the eccentric 16 is therefore by downward movement of the tube 8 by means the pump 6 pumped liquid from the space 5 into the pressure space 7 and when moving upwards Liquid is displaced from the space 9 into the pressure space 7. When the tube 8 moves upwards a backflow of the - liquid from the pressure chamber 7 into the storage chamber 5 through the sleeve seal 22 prevented.

The amount of liquid flowing back into the chamber 9 when the pipe 8 moves downwards is considerably less than the amount of liquid pumped by the pump 6 from the storage chamber 5 into the pressure chamber 7 during this stroke. The downward movement of the tube 8 is, however, supported by the liquid pressure in the space 9 on the annular surface of the hollow cylinder 36 protruding beyond the cross section of the tube 8. When the pressure in the pressure chamber 7 rises, when the rod 8 (pumps) is moved downward, the liquid pressure rises so much that the large piston 6 c is no longer carried down by the disk 18, which is supported against the spring. Thus, with further compression of the spring 20, only the small piston 6 a is effective for the pumping process.

The amount of hydraulic fluid is such that it can be used when the stamp is completely pushed together fills the entire storage space 5 of the inner punch. As soon as the pump 6 pressurized fluid out pumps the reservoir 5 into the pressure chamber 7, therefore results above that located in the pressure chamber 5 Pressure fluid a vacuum.

If the stamp is to be stolen, a square 24 is used from the outside Eccentric 25 a backdrop 26 against a spring 27

60 The storage space 5 of the inner stamp is carefully sealed from the outside. The piston 2 of the inner plunger 1 carries an additional seal 13 to seal it against the ingress of air.

In the upper part of the inner plunger there is a connection 12 for a vacuum pump with a check valve 11 arranged. The storage space 5 of the inner stamp can be evacuated via this connection. In this way, the negative pressure that causes the stamp to be reliably pushed together can be by evacuating from the outside. The creation of negative pressure is also possible through connection to a larger vacuum space possible. The measures for vacuum formation can of course can be used individually and together. In the group of FIG. 2, there is each stamp from an outer punch 40 and an inner punch 41, which is reliably opposite with a seal 42 the outer stamp is sealed. With his head

43, each punch is attached to a slide rail 44. The high pressure spaces 45 "of the outer stamp 40 are connected to a pump 48 by lines 46 via a three-way valve 47. The suction line the pump 48 leads to close to the bottom of an airtight container 49. One another line 50 connects the three-way valve 47 to the upper part of the container 49. From the container 49 is pressurized fluid 51 by means of the pump 48 when the three-way valve 47 is in the appropriate position pumped into the spaces 45 of the support devices. During this process, the support devices are pulled apart and between the lying person and the rail supported against the hanging wall

44 tense. In the example shown, this tensioning takes place in such a way that the outer rams 40 in relation to the inner punches 41 suspended on the rail 44 via the heads 43 against the lying position be pressed. During this process, the rail 44 is by other means (not shown) pressed against the hanging wall. In the example shown, however, the support elements can be removed by removing them the suspension press directly under the rail 44, the bracing in such a way takes place that the inner rams 41 opposite the outer rams 40 supported on the horizontal extend and the system while at the same time taking the rail 44 between the hanging wall and Brace lying down.

If this tension is to be released, then

45

moved downwards, which switched the stem of the valve 10 against 70 of the cock 47 so that the lines 46 with

the line 50 are in communication. As a result of the in space 54 above the liquid 51 in the container 49 formed vacuum, the reflux of the pressure fluid from the stamp spaces 45 takes place in the container 49 and thus the compression of the stamps due to the weight of the outside atmosphere on the piston cross-section to be inserted. The outer punches 40 are hereby attached to the rail 44 suspended support elements are pulled upwards or the inner die when the support elements are not suspended 41 drawn into the outer ram 40, which is supported against the lying surface. To enlarge of the vacuum in the container 49, a vacuum pump 52 is also shown, which has a shut-off device 53 can be connected to the upper part of the container 49 by the line 50.

Claims (6)

Patent claims: 1. Hydraulic support element, characterized in that the space (5, 54) into which the Pressure fluid (4, 51) flows in when the support element is stolen, while it flows in is under vacuum. 2. Single cylinder support element with one in the element built-in pump for pumping the hydraulic fluid from the element's reservoir in the pressure chamber of the element according to claim 1, in particular individual pit punches, characterized in that the storage space (5) is completely sealed off from the outside air is. 3. Support element according to claim 2, characterized in that the storage space (5) is only so large that it is filled in the completely collapsed state of the element (I ₁ 3) of the pressure fluid (4). 4. Support element according to claim 2 or 3, characterized in that the storage space (5) can be connected to a vacuum pump or to a larger vacuum space. 5. Multi-cylinder support element with a common pump arranged outside the cylinder Claim 1, in particular a centrally fed group of pit punches, characterized in that the space (54), which enlarges when pumping empty, is sealed against the outside air Container (49) lies. 6. Support element according to claim 5, characterized in that the container (49) with a Vacuum pump (52) is connected. Considered publications:
German patent specifications No. 924 686, 510 708. 1 sheet of drawings © «09 557/74 6.