DE2612953B2 - Pressure relief valve for hydraulic pit rams - Google Patents

Description

The invention relates to a pressure relief valve for the hydraulic working pressure of a one Stamp assigned to underground expansion frame according to the preamble of claim 1.

In a known type of pressure relief valve, the inlet channel forms a central component of a shaft-like valve lower part, which is pressure-tight and liquid-tight in one to the pressure chamber of an expansion temple leading threaded hole can be screwed. With the one protruding over the outer circumference of the expansion temple Section of the valve stem, a housing-like valve upper part is detachable, but also pressure and connected in a liquid-tight manner. In the free end section, the valve housing has an inlet channel to the Valve stem coaxially located drainage channel. Inside the valve housing there is one with regard to its outer contour largely diabolo-shaped shut-off body made of a resilient elastic material, such as z. B. synthetic rubber set. The fixation is carried out by the axial and radial clamping of the two hollow cylindrical end sections of the shut-off body. This also has a central axial bore, which on one side with the inlet channel and on the other side with the outlet channel in Connection. In the middle length range, the shut-off body penetrates one in diameter larger pressure space in which the shut-off body is surrounded by a pressurized nitrogen atmosphere whose Dmckhöhe is based on the intended limit pressure of the punch. This limit pressure from Z. B. 500 bar acts on all sides on the resilient shut-off body and deforms it so far, that the central axial bore is completely closed. That way it's hydraulic Working medium perfectly enclosed in the stamp. Only when the limit pressure is reached, which corresponds to the pressure corresponds to the nitrogen atmosphere, the hydraulic working medium suddenly overcomes the valve closing pressure and relaxes within a very short period of time through the central axial bore and the adjoining drainage channel to atmospheric pressure.

A major disadvantage of this design is the reltaiv short service life of the shut-off device. One reason for this is the aging of the synthetic Rubber due to the internal flexing movements when relaxing the working medium and in the subsequent reclosing of the central axial bore as a result of the gas pressure exerted on the circumference. Another reason is the progressive roughening of the surface of the central axial bore, starting in the mouth area facing the inlet channel. This mouth area forms namely at the same time the relaxation point of the air dissolved in the hydraulic working medium at the sudden pressure release of the medium to atmospheric pressure. The air bubbles exploding in the process destroy the surface of the central axial bore and roughen it. With frequent relaxation processes, how they can be observed consistently in underground operation will then be seen in the following Explosions also occur in the surface areas of the axial bore that are further in the direction of the atmosphere

J5 is increasingly destroyed, so that after a relatively short time Time erodes the entire central axial bore, d. H. is roughened.

However, the roughening then leads to the cross-section of the axial bore becoming larger. To now

■ »ο to achieve the desired sealing effect again, like he is present with a perfect surface of the axial bore, the nitrogen atmosphere must the Compress the shut-off body more strongly. However, this has the consequence that the nitrogen atmosphere

■ * 5 containing pressure space on the circumference of the shut-off body inevitably becomes larger and thus the gas pressure decreases. However, this reduces it again the opening pressure of the pressure relief valve, so that easy over a longer period of time

M an exact opening pressure cannot be maintained.

The state of the art also includes a pressure relief valve for the hydraulic working pressure (GB-PS 12 06 621) with a peg-like support member, the one Axial bore in a shut-off body in its

y> longitudinal direction interspersed over the entire length. However, this pressure relief valve has several negative properties.

If the hydraulic working medium that is constantly present at the axial bore reaches the through the im

! '"central annulus located gas adjustable Valve limit pressure of 500 bar, for example, this pressure overcomes the valve closing pressure and relaxes within a very short period of time through the ring space between the central bore

■> and the support member within the scope of the embodiment 5 or, in the case of the embodiment of FIG. 6, via the axial bores and the radial openings to atmospheric pressure. The shut-off body

this leads to considerable inner flexing movements when the working medium is relaxed and during the following Reclosing while resting on the support member due to the circumferential loading of the gas pressure. As a result, it ages prematurely and has only a slight tendency Lifespan.

Another disadvantage is the progressive roughening of the surface of the central bore, starting in the longitudinal section facing the inlet channel or in the area of the radial openings. These areas, to which the shut-off body is pressed against the support member by the gas, namely form the Relaxation points for the air dissolved in the hydraulic working medium during the sudden pressure release of the medium to atmospheric pressure. A throttling effect of the same kind cannot be achieved because the working medium is pressed against the support member over the entire length of the gas by the gas Length range of the shut-off body flows through.

The air bubbles exploding at the relaxation points destroy the surface of the axial bore and inevitably roughen them up. But very often because of the underground operation Occurring relaxation processes are then triggered by the subsequent explosions the areas of the axial bores that are further in the direction of the atmosphere are also increasing destroyed, so that after a relatively short time the axial bores in the entire pressure area to the Support members are roughened.

The roughening of the surfaces of the axial bores then inevitably increases the size of the Cross-section of the axial bores. In order to still achieve the sealing effect as it was in If the surfaces of the axial bores are flawless, the pressurized gas would have to hit the shut-off body then squeeze harder. However, this would have the consequence that the central space containing the compressed gas the circumference of the shut-off body must be made larger and thus automatically the gas pressure unless an immediate readjustment is initiated with the necessary effort. By the drop in gas pressure, however, in turn decreases the opening pressure of the pressure relief valve, which therefore cannot be precisely adhered to over a longer period of time.

It is also known from US-PS 29 08 290 and FR-PS 13 45 970, a body made of Sintermaierial to be arranged in front of the membrane-like closing organs of the valves. D'ese arrangement in front means but that the sintered material is in constant contact with the working medium and consequently also is filled with this working medium. This fact means, however, that sudden pressure loads, as they are common practice in underground mining with the generic pit punches, Via the sintered body filled with the working medium, directly to the valve closing element located behind to get redirected.

The invention is accordingly based on the object of providing a pressure relief valve in the preamble of Claim 1 prerequisite to create, in which when the limit pressure is exceeded, a sudden Pressure reduction with the associated erosion is prevented by exploding air bubbles and the Shut-off body with low internal flexing movements is exposed in order to increase the service life of the absorber and over a longer period of time To ensure compliance with an exact opening pressure over a period of time.

The solution to this problem is according to the invention in the characterizing features of Claim 1.

Thereafter, the essence of the invention in the formation of the support member with respect to the only in sintered material provided in the middle length range. If the pressure of the hydraulic working medium has been reached For example, the opening pressure of the pressure relief valve due to increased rock pressure! which corresponds to the preload pressure of the gas atmosphere surrounding the shut-off body, so urges The pressure fluid initially spreads over a short section between the outer circumference of the support member and the surface of the axial bore through to the sintered material and relaxes through here this material gradually targeted down to atmospheric pressure. So it is in the middle length range of the Support member due to the liquid-permeable properties the sintering material produces a bowl effect, which not only provides a powerful pressure reduction avoids, but also the explosions of the air bubbles trapped in the working medium as much as possible Prevents the extent or reduces these explosions to absolutely harmless orders of magnitude.

Due to the fine-pored design of the sintered material, the working medium is made up of small-volume threads passed through the sintered material. If there are still air pockets, so can these only have such a size arrangement that is adapted to the volume of these delicate threads. If these low-volume air inclusions relax explosively, then the

J) the extremely low stress caused by this does not lead to any damage to the shut-off body that would seriously impair the function of the pressure relief valve according to the invention.
It is thus ensured by the inventive concept that damage to the inner surface of the shut-off body in the form of erosions is avoided without any wall. The consequence of this is. that the shut-off body remains functional for a much longer time. This is then used in underground mining

4 ". Afflicts the considerable maintenance problems that exist there with special advantages. The length of the Sintermateriais as well as the type and thickness of this section can also be very sensitive to the duration can be determined in which the excessive pressure of the

> <> The working medium is to be reduced to a harmless level.

There is an advantageous one for certain applications Embodiment of the invention is that the Sinterpiaf rial through a central hole penetrating the support member with the coaxially arranged drainage channel connected is. Die_e training enables z. B. that with overpressure already in an area before Sintered material a certain advance pressure reduction of the working medium} can be achieved, which is then "Defined continuously continues in the sintered material. In this way, too, any sudden Thickness reduction avoided and an extensive protection of the shut-off body against external stresses as well as against internal signs of aging. The .Sintermaterial is in particular by Sintered bronze formed. Of course there is nothing in the way, instead of sinterbron / e another, a slow, continuous decrease in pressure

guaranteed to use the Sintermaierial.

In the context of the further development according to the invention, it can be thinly advantageous that! is the supporting member in (■■ (IRM of a slim cone formed. whose larger in diameter Lndabschniti faces the flow channel. On the other hand, it may also be advantageous sein.dal! the support member. "if the predominate din part of its l.iinge cylindrical and in the find section adjacent to the drainage channel is conically thickened.

The i.rfmdnng is below based on one in the Drawing illustrated embodiment explained in more detail.

1 isl denotes a pressure relief valve that with a shaft-like valve lower part 2 in a threaded hole 3 pressure; screwed in liquid-tight is. The (icwindebohriing is located in the Wall 4 of a not shown in detail

pels With 5 a seal is referred to. The screw depth of the valve stem 2 is through an annular flange β limited, which is on the outside 7 of the Stcmpclwand 4 supports the valve stem also has a central / u flow channel 8 on. which is constantly in communication with the pressure chamber 9 of the stamp

With 10 isi a housing-like upper part of the Druckbe limit valve I designated. Establishing the Valve housing «on valve switch 2 takes place because! the circular ring-shaped Fndabschnitt 11 of the valve housing facing the die wall 4 is pushed onto a lpfenarligen extension 12 protruding from the annular flange 6 until the Virnflache Π of the Lndabschnitts on the outer circular ring flat 14 of the ring flange 6 to the plant got. The axial fixing of the two housing parts is effected by a steel wire 15, which is from Outer circumference of the valve in cmc circular Recess is inserted, which of half-shell-like Grooves lh and 17 in the surface of the extension 12 and m of the inner surface of the Lndabschnius 11 is formed.

The free Lnde of \ cntilgehäuscs 10 has a central opening into which atmosphere flow channel 18 on this is at a distance of aer front side 19 of the Gehair.es in diameter enlarged constructed and in this area 20 a composed of a hard plastic centering piece 21 on. The centering piece, which is provided with a longitudinal bore 22, has a pin 23 and 24 with reduced diameter at both end sections ic . The seal is supported by the fact that the circular ring surface 25 adjoining the pin 23 is slightly conical and thus perfect sealing conditions are brought about in the transition area from the longitudinal section of the drainage channel with the smaller diameter to the rectangular circular ring surface 26 of the larger diameter longitudinal section 20.

The pin 24 of the centering piece 21 is slightly convex on the outer circumference in the longitudinal direction and is surrounded by a circular Lndabscliriill 27 of a shut-off body 28 which is diabolo-shaped with regard to its outer contour. The other end cap 29 of the shut-off body is also designed in the shape of a circular ring, but has a V-shaped inner cross section 30. The walls of this end section lie in a correspondingly shaped V-shaped annular groove 31 of the extension 12. The tension is supported by the fact that the valve housing 10 with an inner collar 32 presses an annular flange 31 of the shut-off element 28 against the end face 34 of the extension. The shut-off body is consequently fixed in a pressure-tight, gas- and liquid-tight manner both on the valve housing and on the valve stem. The shut-off body 28 also has a central axial bore 35. which thus ropes on the one hand with the inlet duct in the valve stem 2 and on the other hand with the longitudinal bore 22 in the centering piece 21, ie

In the A: ualbohrung a finger-like support member 36 is dngeseui. The support member is cylindrical over the essential part 37 of its length and is conically thickened in the Lndabsehabschnitt 38 adjacent to the Zentner-Mück. It consists predominantly of steel and has a fine-pored, liquid-ceramic-porous section 39 made of sintered material, in particular sintered bronze, with a bore 40 in the middle length range. This ^{bore 1} " ¹ J 'is connected to a bore 41 of the support member, which opens into the bore 22 of the centering piece 21.

The miniature longitudinal section of the shut-off body, which is diabolo-shaped in terms of its outer contour 28 lies in an enlarged recess 42 of the valve housing 10, which has a nitrogen atmosphere full! isl. which under a pressure of for example 500 bar stone. This pressure causes the wall 43 made of a resilient material, such as. B. synthetic rubber, existing shut-off device i pressed into the surface 44 of the sleeve member and thereby the gap between the support member and the shut-off body is properly sealed, so that the working medium present in the inlet channel 8 is prevented from flowing out or from a pressure reduction is.

If the pressure in the working space 9 of the ram increases above the linear pressure dtr nitrogen atmosphere in the recess 42, the working medium enters the gap between the support member 36 and the shut-off body 28. slowly expands this gap and is therefore subject to a slight preliminary pressure reduction. When reaching the sintered material 39 he. The pressure of the working medium then increases continuously to atmospheric pressure, with the excess working medium being sprayed off via the outlet channel 18 into the atmosphere. As a result, if the pressure of the working medium falls again below the set pressure of the nitrogen atmosphere, the shut-off body is again properly pressed against the surface of the support member by the pressurized gas and the working medium is prevented from flowing out or from further pressure reduction.

1 sheet of drawings

Claims (4)

1 claims: 1. Pressure relief valve for the hydraulic working pressure of an underground support frame associated stamp, which is between a constantly connected to the pressure chamber of the stamp Inlet channel and an outlet channel opening into the atmosphere through a circumferential side Has gas pressure acted upon shut-off body made of a resiliently elastic material, the Axial bore is penetrated by a pin-like support member over its entire length, thereby characterized in that the support member (36) is made of sintered material in the approximately middle length section (39), which is at least indirectly connected to the drainage channel (18) in a fluid-conducting manner, wherein the wall thickness of the gas pressure rests on the support member (36) in a liquid- and pressure-tight manner Shut-off body (28) is dimensioned essentially the same over the entire length of the support member (36). 2. Valve. ". According to claim 1, characterized in that that the sintered material (39) through a central hole (41) penetrating the support member (36) is connected to the coaxially arranged drainage channel (18). 3. Valve according to claim 1 or 2, characterized in that the support member (36) in the form a slender cone is formed, the larger diameter end portion of which the drainage channel (18) is facing. 4. Valve according to claim 1 or 2, characterized in that the support member (36) on the predominant part (37) since-τ length cylindrical and in the one adjacent to Ablajfkanal (18) End portion (38) conical verdic ': is formed.