BE491065A

BE491065A -

Info

Publication number: BE491065A
Application number: BE491065A
Authority: BE
Original assignee: Schmidt
Priority date: 1949-03-04
Filing date: 1949-09-10
Publication date: 1949-09-30
Also published as: BE491088R; FR1004600A

Description

       

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  Soutènement de mine. 



   L'invention se rapporte à un soutènement de mine qui a pour caractéristique qu'un support intérieur secompo-- sant de deux parties est solidaire au point de vue de la transmission d'efforts, d'un organe de serrage fixé dans le support extérieur et traversant le support intérieur et le support extérieur. 



   Le problème qui est à la base de l'invention est de réaliser un support à friction dans lequel les forces de frottement désirées sont créées de façon simple, avec 

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 une valeur aussi constante que possible et moyennant une dépense de force réduite. En outre, il faut que la hauteur du verrou soit faible, par rapport aux-constructions connues et de la sorte en premier lieu que, pour des longueurs fai- bles de soutènement une grande longueur d'extension puisse être obtenue . 



   En outre, grâce à une forme convenable du profil et surtout en utilisant un métal léger et avec un poids réduit des parties constitutives du verrou, on peut obtenir un support léger à haut rendement. 



   Sur le dessin sont reproduites diverses formes de réalisations. 



   La figure 1 est une section horizontale. 



   La figure 2 est une section longitudinale. 



   Les figures 3 et 4 indiquent deux profils pour le support intérieur. 



   Le support extérieur 1 se compose d'un tuyau dans lequel se trouvent deux ouvertures opposées dans lesquelles se place l'organe de serrage 2. Cet organe se compose princi- palement d'un fer plat et porte sur une extrémité une tête élargie 3 avec des saillies 4 et à l'autre extrémité un boulon fileté 5 sur lequel peuvent se déplacer horizontale- ment une clamme 6 et un ressort convexe 7. On peut également placer des boulons par exemple de hauteurs de serrage diffé- rentes, à chaque extrémité. 



   La plus grande hauteur de serrage sert alors à suppri- mer la jonction pat clamme . 

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   Sur l'organe 2, se trouvent en oàtre quatre clammes 8 mobiles horizontalement. 



   Les nervures 10, 11 et 12 du support intérieur 13 sont bloquées par l'écrou 9 entre la tête 3 et les clammes 
6 et 8. 



   Le ressort en cuvette 7 détermine approximativement la force de serrage, de sorte qu'il est possible d'obtenir une force de serrage déterminée, oscillant entre des :limites étroites et observable de l'extérieur. 



   Dans sa position desserrée, le profil 13 du support intérieur doit pouvoir jouer librement entre les clammes de façon qu'il se produise de soi-même une légère déformation lors du bloquage de la clamme. 



   Pour que cette déformation disparaisse à nouveau loris de la suppression de la pression de bloquage,, elle doit se situer dans la zone d'élasticité. A ce point de vue ce sont surtout les métaux légers et l'acier à ressort qui conviennent. De préférence, on crée dans le profil des points de moindre résistance flexibles 15 comme le réprésente la figure 4. 



   Afin de renforcer le profil, les nervures 10,11 et 12 sont de préférence réalisées avec une épaisseur plus grande . Pour le placement   d'un   dispositif de montage, la nervure 11 médiane est réalisée de telle façon qu'elle fasse saillie par rapport aux autres nervures 10 et   12 .   Avec le profil hachuré suivant la figure 3, il ne se produit pas de déformation lors du   bloquage.   L'organe de serrage 2, outre les saillies 4, est également pourvu ' l'intérieur du 

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 support extérieur 1   d'une   saillie formée d'un ergot 14 de telle sorte que le support intérieur reste en position axiale par rapport au support extérieur.

   Afin   d*augmenter   la force de serrage ou de la régler par paliers pour l'emploi en y donnant des coups ou bien par effondrement, on peut placer, l'un dernière l'autre, dans la ligne neutre du support, un certain nombre d'organes de serrage. On a prévu, en outre, une pièce 17 se plaçant verticalement sur la ligne neutre du support extérieur 1. 



   Cette pièce est réalisée à l'une de ses extrémités ou aux deux 16 en forme de coin complètement ou non avec tendance à l'autoserrage. 



   Sur ces extrémités viennent poser la tête 3, de forme correspondante, de l'organe de serrage 2 et les or- ganes 6 des clammes. 



   De façon correspondante, les organes des clammes s'appuient sur la pièce 17. 



   Grâce à la   tendance,à     l'autoserrage,   trois nervures par exemple peuvent par cette construction transmettre environ 1/6 de la charge à supporterpar le montant, par l'intermédiaire de l'organe de serrage 2, au support exté- rieur   1 ,   tandis que les 5/6 viennent porter directement sur le longeron 17 sans charger l'organe de serrage 2. Ceci est avantageux pour libérer la jonction.,Le processus de libé- ration est facilité par les surfaces en coin 16. Par le désserragedu boulon 9, le support perd déjà la plus grande partie de sa charge . Il est alors éventuellement suffisant 

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 de donner un léger coup seulement à l'organe de serrage 2 pour que le support s'affaisse complètement. 



   Entre la tête 3 et le longeron 10 du montant intérieur, on peut   éventuellement.placer   une clamme, qui aura un coin de même pente que le longeron 17. L'organe de serrage 2 est alors complètement déchargé de la pression du plafond de la galerie. 



   Revendications. 



  1.- Soutènement de mine en plusieurs parties caractérisé en qu'un support intérieur (13) en une, deux ous en plusieurs parties est solidaire au point de vue de la transmission de l'effort d'un organe de serrage (2) s'appuyant dans le sup- port extérieur (1) et traversant les supports intérieur et extérieure (1,13).



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  Mine support.



   The invention relates to a mine support which has the characteristic that an internal support consisting of two parts is integral, from the point of view of the transmission of forces, with a clamping member fixed in the external support. and passing through the inner support and the outer support.



   The problem which is at the basis of the invention is to achieve a friction support in which the desired friction forces are created in a simple way, with

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 a value as constant as possible and at a reduced expenditure of force. In addition, the height of the latch should be low, compared to known constructions and so in the first place that for short lengths of support a great length of extension can be obtained.



   In addition, thanks to a suitable shape of the profile and above all by using a light metal and with a reduced weight of the constituent parts of the lock, it is possible to obtain a light support with high efficiency.



   On the drawing are reproduced various forms of realization.



   Figure 1 is a horizontal section.



   Figure 2 is a longitudinal section.



   Figures 3 and 4 show two profiles for the interior support.



   The outer support 1 consists of a pipe in which there are two opposite openings in which the clamping member 2 is placed. This member consists mainly of a flat iron and carries on one end an enlarged head 3 with projections 4 and at the other end a threaded bolt 5 on which can move horizontally a clamp 6 and a convex spring 7. It is also possible to place bolts, for example of different clamping heights, at each end.



   The greater clamping height then serves to eliminate the junction pat clamme.

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   On the body 2, there are four clammes 8 horizontally mobile.



   The ribs 10, 11 and 12 of the internal support 13 are blocked by the nut 9 between the head 3 and the clammes
6 and 8.



   The cup spring 7 approximately determines the clamping force, so that it is possible to obtain a determined clamping force, oscillating between: narrow limits and observable from the outside.



   In its released position, the profile 13 of the inner support must be able to play freely between the clammes so that a slight deformation itself occurs when the clamme is blocked.



   For this deformation to disappear again when the blocking pressure is removed, it must be in the elasticity zone. From this point of view it is mainly light metals and spring steel which are suitable. Preferably, flexible points of least resistance 15 are created in the profile as shown in Figure 4.



   In order to strengthen the profile, the ribs 10, 11 and 12 are preferably made with a greater thickness. For the placement of a mounting device, the median rib 11 is made in such a way that it protrudes from the other ribs 10 and 12. With the hatched profile according to FIG. 3, no deformation occurs during blocking. The clamping member 2, in addition to the projections 4, is also provided with the inside of the

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 outer support 1 of a projection formed by a lug 14 such that the inner support remains in an axial position relative to the outer support.

   In order to increase the clamping force or to adjust it in stages for use by striking it or else by collapsing, one can place, one last the other, in the neutral line of the support, a certain number clamping devices. In addition, a part 17 is provided which is placed vertically on the neutral line of the outer support 1.



   This part is made at one of its ends or at both ends 16 in the form of a completely wedge or not with a tendency to self-tightening.



   On these ends are placed the head 3, of corresponding shape, of the clamping member 2 and the members 6 of the clamps.



   Correspondingly, the organs of the clammes rest on part 17.



   Thanks to the tendency to self-tighten, three ribs for example can by this construction transmit about 1/6 of the load to be supported by the upright, through the clamping member 2, to the external support 1, while the 5/6 come to bear directly on the side member 17 without loading the clamping member 2. This is advantageous to release the junction., The release process is facilitated by the wedge surfaces 16. By loosening the bolt 9, the support already loses most of its load. It is then possibly sufficient

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 to give a light blow only to the clamping member 2 so that the support collapses completely.



   Between the head 3 and the spar 10 of the interior upright, it is possible to place a clamp, which will have a corner of the same slope as the spar 17. The clamping member 2 is then completely relieved of the pressure from the roof of the gallery. .



   Claims.



  1.- Mine support in several parts characterized in that an interior support (13) in one, two or in several parts is integral from the point of view of the transmission of the force of a clamping member (2) s 'pressing in the outer support (1) and passing through the inner and outer supports (1,13).

Claims

2. - Mine support according to claim 1, charac- terized in that the transmission of the force is effected by four or more surfaces (10,11,12) of a single internal support piece (13).

3. - Mine support according to claims 1 and 2, characterized in that the internal support profile (13) has a shape such that it can withstand elastic deformation during blocking.

4. - Mine support according to claims 1 to 3, characterized in that the da inner support profile (13) is provided with flexible parts (15) of lower resistance. <Desc / Clms Page number 6>

5. - Mine support according to claims 1 to 4, characterized in that the profile of the inner support (13) is composed of a profile in the form of a gutter with two or more ribs.

6.- Support da mine, according to claims 1 to 5, characterized in that the ribs (10,11,12) are reinforced.

7. - Mine support according to claims 1 to 6, characterized in that the free end of the central rib (11) of the profile of the inner support (13) protrudes relative to the open end of the outer ribs (10 , 12).

8. A mine support according to claims 1 and 2, characterized in that the internal support (13) consists of an angular profile.

9. A mine support according to claims 1 to 8, characterized in that the profile of the inner support (13) is a light metal.

10. A mine support according to claims 1 to 9, characterized in that the profile of the internal support (13) is made of high strength elastic steel.

11.- Mine support according to claims 1 to 10, characterized in that the clamping member (2) preferably made with a raised rib is executed at one of its ends or at both ends in the form of bolt (5).

12. - Mine support according to claims 1 to 11, characterized in that the clamps (8) located inside <Desc / Clms Page number 7> inside the inner support (13) can move horizontally on the clamping member 2.

13. - Mine support according to claims 1 to 12, characterized in that the clamping member 2) is protected against horizontal displacement.

14. A mine support according to claims 1 to 13, characterized in that a spring (7) is placed in the blocking direction of the clamping member (2).

15.- Mine support according to claims 1 to 14, characterized in that the clamps (6,8)) are made of light metal, of compressed material or of another material having a high coefficient of friction.

16. - Mine support according to claims 1 to 15, characterized in that two or more loosening members (2) are placed one behind the other along the neutral line of the support.

17. - Mine support according to claims 1 to 16, characterized in that in the outer support (1) transversely with respect to the neutral line of the support is placed a part (17) onlaquelle the head (3 ) of the clamping member (2) as well as the clamps (0.8).

18. - Mine support according to claims 1 to 17, characterized in that the contact surface between the head (3) of the clamping member (2) and / or the damme (6) on the part (17 ) is made in the form of a wedge.