DE2920659C2 - Device for erecting a columnar support element for underground mining - Google Patents

Description

The invention relates to a device for erecting a columnar support element from a hardenable, flowable substance, such as concrete, between the base and roof of an underground Mine construction, according to the preamble of claim 1. For intercepting the roof of an underground mine construction column-like support elements made of concrete have already been used -These concrete columns are made of several prefabricated concrete slabs, which are stacked on top of each other and wedged between the lying person and the hanging wall. The disadvantage of these concrete pillars is that due to the individual parts required high transport costs from the production site above ground to the place of use underground. Furthermore, it is from Disadvantage that the load absorption of such concrete pillars only with a comparatively large diameter Sufficient underground requirements Another disadvantage is that the individual Concrete slabs have a permanent effect both during transport and when erecting the supporting columns Represent the source of the accident.

However, it has also been proposed (DE-OS 28 47 906), a columnar support element made of concrete to be erected directly on site underground. The device for this consists of two telescopic nested tubular formwork housings closed only at their ends facing away from one another. The formwork housings are made of concrete at the intended location of the supporting column to be erected

so filled, with the upper shuttering housing in the lower shuttering housing extends upwards and rests against the roof with its head surface, which is closed except for a small vent opening. After the system, the supply of concrete is interrupted and the filling process is completed. The material of the formwork housing is not metallic. It is based, for example, on cardboard or plastic and therefore has only such a strength that the concrete poured into the formwork housing is just held in the intended shape until it hardens. Since the hardening process of the concrete takes several hours, a hydraulically actuated piston unit has been provided to maintain the contact of the upper shuttering housing on the roof, the parts of which can be moved relative to one another are attached to the upper and lower shuttering housings.
A shortcoming of the known device is due to the

Long hardening time of the concrete, which can result the fully hardened Stöta column only after several Hours from the time of the fall process. In addition, with the support concrete column and also with the hydraulically actuated thrust piston unit provided on the outside of the blade housing no effective support force is introduced into the rock. It is just a setting tool However, these deficiencies are not justifiable in most cases of underground mining. About that In addition, the known formwork housings are articles that cannot be reused allow.

From DE-AS 21 25 173 a device for erecting a columnar support element is known, which are also two closed at their ends facing away from each other, at their facing ends However, ends open, coaxially nested and axially telescopic shuttering housing When building a support column z. B. concrete filled into the formwork housing, the upper Formwork housing only extends under the influence of the poured concrete up to the system at the roof no additional pressure means are provided that the upper formwork housing until the concrete has hardened hold on to the roof. A really stable pillar is therefore only achieved after the hardening process Due to the lack of appropriate pressure means, a targeted support force can certainly not be used in the Mountains are initiated. To make the formwork housings reusable, they are separated from each other separable half-shells are formed. Their coupling takes place via radially protruding vertical webs and these transversely enforcing screwing means. - Separable half-formwork housings are also by the US-PS 36 90 110 known

The invention is based on the device for erecting a columnar support element according to the preamble of claim 1, accordingly the object is based on the known To improve the device so that while maintaining a cost-effective manufacture of a supporting pillar an early interception of the mountains while adapting to changing distances between the ridges and the sole is guaranteed

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

The core of the inventive idea is therefore seen in the functional connection of a frequently reusable formwork for the support column to be erected with a pit ram arranged directly next to the formwork, in particular hydraulically actuable. During the time in which the substance introduced into the formwork hardens, this pit punch takes on the task of introducing the necessary supporting forces into the rock and thus reliably intercepting the roof. In addition, the pit ram is responsible for the supporting function of bringing the upper formwork housing safely to the roof, even if, due to the local conditions, for example due to outbreaks and so on, there are differences in height between the point where the pit ram is braced, and the place where the support column is to be erected. To this end, resilient Andrückmfttel are between the upper housing and the formwork props being incorporated, provided that _for the upper casing housing, {he optionally bring compensating height differences existing properly on the roof to the plant. Furthermore, when the pit punch is applied, the

5 upper formwork housing from the lower formwork housing be pulled out.

The formwork housings each consist of two half-shells, of which at least the half-shells of the lower formwork housing about a pivot axis

to are foldable, which are parallel to the common The longitudinal axis of the formwork housing extends. Of course, the half-shells are in the operating position also lockable to withstand the pressure of the filled substance, such as concrete. the In principle, half-shells of the upper housing do not need to be foldable because they are in the lower formwork housing guided vertically and by the resilient pressure means at least indirectly from the pit punch are axially displaceable from. However, according to the invention it is entirely possible that the Haibschaien of the upper shuttering housing analogous to the half-shells of the lower shuttering housing s.nd a vertical pivot axis, which runs parallel to the longitudinal axis of the formwork housing

It can be seen that the great advantage of the design according to the invention lies on the one hand in the reusability of the formwork for the support column and on the other hand in the fact that the pit rams assigned to the formwork housings via the resilient pressure means immediately take over the necessary expansion support force and this for the entire period of the Hardening of the substance in the formwork housings can be maintained. Once the substance in the formwork has hardened, the pit ram is relaxed, then the formwork housings are removed from the now finished support column and the entire device is then reinserted, if necessary after cleaning the formwork
An advantageous embodiment of the basic idea according to the invention is that the pressing means is formed by a helical compression spring which surrounds the pit ram between a fixed collar and an axially displaceable sleeve which, in turn, grips an annular collar of the upper formwork housing with an arm Support on the fixed collar has the task of holding the upper formwork housing on the roof via the sleeve and the bracket.

At the same time, this coupling of the formwork with the pit stamp ensures that the formwork both during the filling with the curable substance and during the curing period in the place remains where the support column is to be erected! There are consequently no additional measures to be taken to set the formwork for the support column. The axially displaceable on the pit ram The sleeve can be detachably connected to the arm under the ring collar of the upper formwork housing be. The helical compression spring can be provided freely movable on the circumference of the pit punch will. If necessary, it can be covered with a protective coating made of a tough, however, easily manageable material should be surrounded.

Is the ring collar of the upper formwork housing useful? lower section of the boom designed as a clip. The hinged clamp can have one swivel arm or two swivel arms

own. The hinged clamp is advantageously adapted to the outer circumference of the upper formwork housing, wherein the pivotable part can be locked to the adjacent part by means of a socket pin, which fits through the corresponding coupling consoles on the hinged clamp. The hinged clamp can here together with the mutually locked half-shells of the lower formwork housing, the cohesion take over the half-shells of the upper formwork housing and their axial guidance.

According to another advantageous embodiment the invention provides that the pressing means are provided by two push piston units provided with mechanical springs are formed, the cylinder on two with respect to the longitudinal axis of the formwork housing diametrically opposite pit stamps that can be braced between the roof and the bottom attached and their piston rods on a radial duSicncndcH ring carrier! dC3 obcrCTi Schal'jrigSgchäü ses are brought to the plant.

The pit stamps provided on opposite sides of the formwork ensure that that the upper formwork housing is tilt-free on the roof of the system via the pressing means comes. In this embodiment, too, the resilient pressure means can accommodate any height differences level between the pit punches and the formwork. The cylinders of the thrust piston units can be attached to the pit stamp with clamps. That of helical compression springs, for example or other suitable mechanical spring elements to drive piston rods up out of the cylinders and grip under the radially protruding annular collar of the upper casing. In order to ensure a perfect, even pressure of the upper formwork housing in this context To ensure the roof, recesses can be worked into the underside of the ring collar be, in which the end sections of the piston rods engage in a secured position.

As a complementary measure to the proper support the roof and the centric pressure of the upper formwork housing on the roof sees the The invention also provides that the pit stamp are supported on a common base plate, which with a central recess is provided for the passage of the lower formwork housing The miner handling the device is consequently not dependent on his sense of proportion or his feeling in order to determine the To bring the pit stamp on the one hand and the formwork on the other hand into the proper relative positions. Although the basic idea of the invention is not abandoned when the pit punch with the extendable length section or with the extendable length sections, if it is Telescopic ram should point to the roof, a useful feature of the Invention in that the extendable length sections of the pit punches are directed towards the sole In this way, the more resilient, non-extendable length sections of the pit punches favorable to the definition of the resilient pressure means and their brackets including the Transmission organs are used-in accordance with an advantageous development of the In accordance with the invention, the upper shear housing has a radially protruding, end-side annular collar and a for this purpose arranged at a vertical distance, also radially protruding annular collar, between which there are the filler opening for the curable substance is located, which is connected to the filler neck between the Ring collar fitted detachable clamp can be brought into alignment and by twisting the clamp is lockable.

The clamp, which is mounted in a sealed manner between the ring collar but can be rotated, consequently takes over on the one hand the function of matching the filler neck with the filler opening of the upper formwork housing bring to. After the filling process, it is then only necessary to put the clamp around the To twist the longitudinal axis of the formwork housing that the filling opening through the wall of the clamp

i -> is sealed. This way is neither a special closure for the filler opening still necessary for the filler neck.

So that the miner has it easier, the filler neck

ü "d die EinfüHöffr.ün ⁰ ! Π Ub £ r?! n? * 'n ^1m Uni' *» 'hrincrptv the invention provides that the clamp can be locked on the upper formwork housing Be provided with spring force radially displaceable bolt, which engages in the filling position in a corresponding recess in the upper shuttering housing and thereby fixes the clamp To twist circumferential direction, with the free

3π end portion of the bolt then on the outer circumference of the upper casing slides. In this context it is useful if the recess is in the annular collar provided at a distance from the upper end of the upper formwork housing.

3 ¹ ) is net.

The ability to fold at least the half-shells of the lower formwork housing and possibly also the half-shells of the upper formwork housing is ensured according to a feature of the invention, that the half-shells are provided with hinge joints at least of the lower formwork housing are. The hinge joints consist of bearing brackets protruding radially from the outer circumference of the half-shells, which are penetrated by vertical bolts. These vertical bolts can then act both as locking elements and as hinge bolts.

The material of the formwork housing must be sufficiently resistant to on the one hand the pressure of hardening substance, such as concrete,

so to withstand, and on the other hand, the longest possible service life, taking into account the rough .. underground Ensure practice in conjunction with frequent repositioning. In this regard, the Invention consequently that the formwork housing made of metal, in particular steel or a steel or Metal alloy

The invention is explained in more detail below with reference to the exemplary embodiments shown in the drawings explained it shows

F i g. 1 a device for erecting a columnar support element and such a support column, each in the side view,

F i g. 2 in an enlarged illustration, partially in section, the ridge-side end section of a supporting column formwork and

F i g. 3 shows a further embodiment of a device for erecting a columnar support element in side view, partly in vertical section

In Fig. 1, 1 is the roof and 2 is the sole an underground mine 3, z. B. a longwall, referred to. This pit 3 is said to be columnar Support elements 4 are maintained, which may consist of appropriately arranged armaments, tion provided concrete.

A device is used to erect the supporting concrete column 4, which consists of a formwork 5 and a pit stamp 6 | that can be clamped directly next to the formwork 5 between the base 2 and the roof 1 ₀ composed.

The formwork 5 consists in the embodiment of FIG. I from a lower shuttering housing 7 and one in the lower shuttering housing 7 telescopically guided upper shuttering housing 8. The lower r, Formwork housing 7 is composed of two half-shells 9, 10 having cylindrical inner surfaces, which are open at the ends and thus form a tube in the assembled state. In the The operating position shown are the half-shells 9, 10 which can be opened and collapsed like scissors Hinge clamps 11 held together. The hinge clamps 11 are located in the upper and lower End section of the lower formwork housing 7. The hinge clamps 11 point with reference to FIG. 2i Longitudinal axis 12 of the formwork 5 diametrically opposed joint eyes 13 through which Bolts 14 hill are pushed through, which thus both as a hinge pin and as a connecting pin can serve. jo

The upper formwork housing 8 is also set - like the lower formwork housing 7 - composed of two half-shells 14, 15, which, however, are opposite to the half-shells 9,10 of the lower formwork housing 7 are arranged offset by 90 ° in the horizontal plane. The half-js shells 14, 15 have radially protruding annular collar segments 16 at the upper end. In the distance below this ring collar segments 16 have the half-shells 14, 15 more ring collar segments 17, so that a circumferential annular groove 18 is formed (see also Fig. 2).

In the annular groove 18 a hinged clip 19 is fitted from two Scnaiennäifien 2ö, 2i. The beiucii Suiiaicnhälften 20, 21 are connected to one another via socket pins 22, which bores 23 are in connecting brackets 24 of the shell halves 20, 21 pass through. In order to prevent slipping, the socket pins 22 are Cross split pins 25 are provided.

On the outer circumference of a shell half 21, a tubular filler neck 26 is coaxial with a bore 27 fastened in the wall 28 of the shell half 21. The filler neck 26 is used to attach a concrete filler hose. As FIGS.] And 2 also show, is also in the wall 29 of the half-shell 14 of the upper formwork housing 8 incorporated a bore 30 which is coaxial with the filler neck 26 Can be matched. A socket pin 31 is used to lock this position through Spring force 32 is locked into a recess 33 of the annular collar 17 with the help of an eyelet-like hand eo handle 34, the bolt 31 can be pulled out of the recess 33 against the spring force 32 and then the clamp 19 in the annular groove 18 between the annular collar 16 and 17 about the longitudinal axis 12 of the Formwork 5 is rotated In this way, the bore 30 in the wall 29 of the half-shell 14 of the wall 28 of the shell half 21 is closed.

The pit stamp 6, which can be clamped next to the formwork 5 between the roof 1 and the base 2, is hydraulically actuated. Its extendable length 35 is based on the sole 2 and not extendable length section 36 on the roof 1 from. Between a fixed collar 37 on the non-extendable Length section 36 and an axially on the non-extendable length section 36 displaceable sleeve 38 a helical compression spring 39 is arranged. The helical compression spring 39 acts via the sleeve 38 and a boom 40 connected to the sleeve 38 on the upper formwork housing 8 in the sense of a pressure of the formwork housing 8 to the roof 1. For this purpose, the boom 40 has a hinged clamp 41, which comprises the upper formwork housing 8 and engages the annular collar 17 below. The hinged clamp 41 is over Bolt 42 designed to be detachable.

The from FIG. 3 recognizable embodiment of a device for erecting a columnar StUtzelements 4 made of concrete consists of a formwork 43 and two arranged on both sides next to the formwork 43, hydraulically actuated pit rams 44. With reference to the longitudinal axis 45 of the formwork 43 are the pit punches 44 are provided diametrically opposite one another.

The formwork 43 again consists of a lower formwork housing 46 and an axially telescopic one therein upper shuttering housing 47. Both shuttering housings 46, 47 are open at the ends. The lower Formwork housing 46 is composed of two half-shells 48, 49, which are connected via hinge joints 50 are interconnected and lockable. The upper formwork housing 47 also consists of two half-shells 51,52, which are also in the end section on the slope end can be coupled and locked with one another by hinge joints 53.

The upper formwork housing 47 has according to the embodiment of FIG. I and 2 an upper one Ring collar 54 and a further ring collar 55, which is arranged at a distance below it, and which in turn form a circumferential annular groove 56, in the one

Shy iS ciüpauüai is how SiC U3 dcPi Γ '. G. ! \ l ~ i 2

can be seen in more detail. To maintain the clarity of the drawing, the clamp 19 is shown in FIG. 3 not shown again.

The end ring collar 54 has a larger outer diameter compared to the ring collar 55. It has on the underside 57 two diametrically opposite recesses 58 into which the Engage piston rods 59 of two thrust piston units 60. The cylinders 61 of the thrust piston units 60 are fastened to the pit punches 44 via clamps 62. The piston rods 59 are under the Influence of spring elements 63 in the cylinders 61. These spring elements 63 can be helical compression springs be.

The pit punches 44 are directed with their extendable length sections 64 towards the sole 2, while the non-extendable length sections 65 point towards the roof 1. The free ends of the extendable length sections 64 are supported in recesses 66 of a base plate 67, which with a central continuous recess 68 is provided for the passage of the lower formwork housing 46

For this purpose 3 sheets of drawings

Claims (7)

Claims; t. Device for erecting a column-like support element made of a hardenable, flowable substance, such as e.g. concrete, between the base and roof of an underground mine, which has at least two tubular formwork housings which are coaxially nested into one another and which can be telescoped in the axial direction, at least at the ends facing one another, of which the upper formwork housing can be extended and kept in contact by a pressing device provided next to the formwork housing and at least indirectly supported on the base, characterized in that each formwork housing (7,8,46,47) consists of two open ends Half-shells (9, 10; 14, 15; 48, 49; 51, 52), of which at least the half-shells (9, 10; 48, 49) of the lower formwork housing (7; 46) about a parallel to the common longitudinal axis (12 , 45) the formwork housing (7,8; 4S ₁ 47) extending pivot axis (13, 50) can be folded and the upper formwork housing (8; 47) under the influence of v on resilient pressure means (39; 63) is provided, which is supported on a pit stamp (6; 44) that can be clamped next to the formwork housings (7, 8; 46, 47) between the roof (1) and the base (2). 2. Device according to claim 1, characterized in that that the pressing means is formed by a helical compression spring (39), which the pit punch (6) between a fixed collar (37) and one axially displaceable sleeve (38) surrounds which in turn has an annular collar with an arm (40) (17) of the upper formwork housing (8) 3. Apparatus according to claim 2, characterized in that the the annular collar (17) of the upper Formwork housing (8) below the section of the boom (40) is designed as a hinged clamp (41) 4. Apparatus according to claim 1, characterized in that the pressing means by two with Mechanical springs (63) provided push piston units (60) are formed, the cylinder (61) on two diametrically opposed to one another with respect to the longitudinal axis (45) of the formwork housing (46, 47) opposite pit stamps (44) that can be clamped between the roof (1) and sole (2) and their piston rods (59) on a radially protruding annular collar (54) of the upper formwork housing (47) are brought to the facility. 5. Apparatus according to claim 4, characterized in that the pit punch (44) on a common base plate (67), which has a central recess (68) for the passage of the lower formwork housing (46) is provided 6. Apparatus according to claim 1, 2, 4 or 5, characterized in that the extendable Length sections (35.64) of the pit punches (6.44) are directed towards the sole (2). 7. Device according to one of claims 1 to 4, characterized in that the upper formwork housing (8,47) a radially protruding, end-side annular collar (16, 54) and a vertical one to it Has spaced, also radially protruding annular collar (17, 55), between which the filler opening (30) for the curable substance is located, which is connected to the filler neck (26) a fitted between the ring collars (16, 17; 54, 55) releasable clamp (19) can be brought into agreement and locked by rotating the clamp (19) is, 8, device according to claim 7, characterized in that that the clamp (19) can be locked on the upper formwork housing (8,47) 9, device according to claim 1 or one of the following claims, characterized in that the half-shells (9, 10; 48, 49) at least des ίο lower formwork housing (7; 46) with hinge joints (13; 50) are provided. 10, device according to claim 1 or one of the following claims, characterized in that the formwork housing (7, 8; 46, 47) made of metal, is in particular made of steel or a steel or metal alloy.