NO119766B - - Google Patents

Description

Iimstill has a metal support post.

The present invention relates to one of

telescopic tubes consisting of an adjustable support post and the purpose is to provide a support post of very simple and economical construction, which practically requires no maintenance.

These support posts are of the so-called "light" type which do not allow any displacement when overcoming braking friction which absorbs energy, and which enable a permanent support of the tyre, in contrast to the "heavy" support posts, where what is supported moves downwards when lowering the post.

The support post is of the kind in which a lower tube is displaceable inside an upper tube, and where a locking device is pushed onto the lower tube, with the help of which an approximate adjustment of the height can be made (rough adjustment), and is characterized according to the invention by a pressure piece which supports the upper pipe and is brought into contact with the said part under the insertion of at least one wedge, and which can be displaced in the height direction by means of a weight arm device, which bears against the said part.

Other features of the invention will be apparent from the following description in connection with the drawing, which shows two embodiments of the invention as examples.

Fig. 1 is an elevation of a support post according to the invention,

fig. 2 shows some of the individual parts of the post separately,

fig. 3 is a perspective view of the locking device in working position,

fig. 4 is a vertical view through the locking device,

fig. 5 and 6 show a variant,

fig. 7, 8 and 9 show another embodiment of the invention, in that

fig. 7 shows the entire support post in the second embodiment,

fig. 8 individual parts separately and fig. 9 is a perspective view with the locking device in working position.

In fig. 1-4, the support consists of a lower tube 1 which is slidably arranged in an upper tube 2, which is carried by a pusher 3, which forms part of a locking device.

This pusher is of a cubic shape and has on two opposite sides inclined surfaces 4 which incline inwards from above and downwards so that a retracted edge 5 is formed between two end edges 6.

The four lower edges 6 rest on inclined surfaces formed by U-irons 7, which are arranged against each other and are welded to side pieces 8, which form part of the locking device which is equipped with holes 9 for the passage of a pin 10, which carries the entire the locking device when the pin is also passed through the diametrically opposed hole 11 in the tube 1.

The axial distances between the holes 9 in the side pieces 8 of the locking device correspond to half the distance between the holes 11 in the pipe 1.

The 3 flat sides 12 of the pusher are partially covered by the side pieces 8.

The pusher 3 has a pin 13 for placing an eccentric 14 with a removable operating key 15.

The axial distance between the holes 9 in the side pieces 8 can also correspond to the lifting height of the eccentric, but is preferably greater due to the desired manufacturing tolerance.

After the lock is placed in the selected

height using the pin 10 and fixed by selecting one of the holes 9 (which in the example is shown in a number of four), lifting under load and fine adjustment is carried out using the common key 15 for all supports.

Eksenteret 14, which has facilities towards

the lock's side pieces 8, lift the pusher 3, which rests against the upper tube 2 and is held exactly at the correct height by means of two wedges 16, which are inserted between the inclined surfaces 4 and the angle irons 7.

The lower and upper pipe will then be locked by the wedges 16 in the precisely adjusted positions without any possible change in the height of the support.

It is clear that the load or a

increasing the load on the support will only increase the pressure between the contact surfaces of the wedge and the U-irons without any change whatsoever in their relative positions. When the correct height has been achieved, it is not even necessary to give the head of the wedge a light blow.

After using the support, it can be released, either by means of the eccentric key 15 to change the mutual positions of the wedges and the inclined surfaces or by removing the pin.

Fig. 1 clearly shows how the telescopic tubes and the lock are arranged. It will be seen that the pipe 2 has the length necessary for support of this kind, otherwise it is unprocessed, just cut off. At its upper end, a U-shaped fork 17 is placed for the placement of two wooden beams 18 or a thick square steel plate. The foot piece 19 at the bottom of the tube 1 is usually a thick, square or round steel plate.

It is clear that the lower pipe 1 goes a suitable distance into the upper pipe 2 also when the support post is at its greatest height.

Due to the locking connection's large

strength, the support may have an exceptionally high height and in that case it is only necessary to use longer pipe 2. It may then be necessary to place wooden cross supports to prevent unfortunate displacements between the support posts.

The invention also includes a simple and effective way to achieve such a connection between support posts.

As shown in fig. 5 and 6 it is in the upper tube

2, drilled two diametrically opposite holes 21 for a bolt 22, which passes through two symmetrical blocks 23 which on all sides form nail strikes for attaching cross-

supports 24 for connection between support chair-

pretty.

The bolt 22 is retained by a head 25 and

a splinter 26.

The connection can also take place at

help of strivers 27.

Fig. 7, 8 and 9 show a simplified embodiment of the locking device where a cloud part 30 on its one concave side 31 is welded directly to the support post's upper rod 2, while this part's opposite flat side 32

rests against a single wedge 33, whose counter-

set side is in contact with an inclined surface on the inside of a part 34, which forms the locking body. The concentric part of this part is

points towards the pipe 2. The part 34 is welded to the pipe 2 and it is extended downwards with a part with a U-shaped cross-section with a hole 91 for a pin 101.

The key common to all support posts here consists of a weight bar 35, one end of which is pivotable in a sleeve 36 attached to the upper pipe 2, as well as of an arm 37, one end of which at 38 is pivotably connected to the arm 35 and the other end rests in a sleeve 39 welded to the locking part 34.

The wedge 33 has a larger shoulder at the top

which can be struck with a hammer or other tool and on the side facing the lock 34 there is a pin 41, which passes through a recess 42 in the part 34.

It is noted that the support post has the property that the load on the beam prac-

technically not occupied by the lock, as possible

makes fine adjustment of the height setting under load, including the pressure exerted by the operating key.

This latter pressure enables the support beam to be used, not only for support in coal pits with "rising" or "semi-rising" galleries, but also in pits where the load per support post does not exceed 8 to 15 tonnes. For heights below the roof of 630 mm to 2000 mm, the support post is called "light" or "stiff" and does not allow any displacement with energy-consuming friction braking, which is the case with heavy support beams used when what the posts support is moved downwards during lowering of the posts.

The support post can thus be used

not only in such cases, but also when it comes to supporting general building

reinforced concrete works, where precise height deregulation is required. With the help of the key, a person's power output can be ninefold in this way.

Otherwise, especially in such general applications, the force acts in the same direction as the main direction of the support post,

so that the support post is not exposed to anyone

lateral movements that may otherwise occur. The support test post can therefore be placed and maneuvered against a wall or against the top of an angle between two walls.

In this way, a support post can be constructed, for resistance under equally large loads, approx. 30-50% lighter than previous support posts. Wear does not affect the construction, it does not need maintenance and it does not corrode.

For example, a 3,000 mm long support post can absorb a load of up to 12 tonnes without being permanently deformed. In this connection, it should be noted that it is common to allow a load of 500-5,000 kg per support post.

It should also be noted that:

a) the lowest pipe, which has the smallest diameter, is the one that rests against the ground; b) that the resistance to deflection as a function of height, practically speaking, is

which is made possible by the cross-section of the lower tube with the smallest diameter, considered as continuing to this height, which means that the locking device has no influence on the strength of the support post. It can even be said that in borderline cases, i.e. when you approach a point where permanent deformations occur, the lock acts as a "bandage" around the connection point of the pipes.

In fig. 1-6, release occurs after use of the support post either by the eccentric key displacing the relative positions of the wedges and inclined parts relative to one another, or by the pin 10 being displaced so that there is a slight mutual displacement between the wedges and the inclined surfaces.

In fig. 7, 8 and 9 can be released by pulling out the wedge 35, which has been knocked down slightly, which provides a safety in that the support post does not move more than quite a bit downwards, namely equal to the very limited stretch equal to the final height adjustment made possible by the mutual displacement clearance that exists between the sides of the wedge 35 and the contact surface with the support part formed by the lock 34 and the sliding part 30, which is then blocked against the surfaces of the locking device.

This track is approx. 35-40 mm long and then the load is absorbed by the pin 10<]>.

The other means of completely shutting down the operation of the support simply consists in displacing the pin 10 by knocking it out with the help of a hammer.

Claims (5)

1. Adjustable metal support post, I comprising two telescopically displaceable tubes which can be held in a fixed position relative to each other by means of a locking device for coarse and fine adjustment, where the locking device comprises a part (7, 8; 34) which can be displaced in relation to the lower tube and attached to the latter in variable positions, in order to achieve a rough adjustment, characterized by a pressure piece (3; 30) which supports the upper tube and is brought into contact with the mentioned part ( 7, 8; 34) with the insertion of at least one wedge, and which can be displaced in the height direction by means of a weight arm device (14; 35, 38), which bears against the aforementioned part (7, 8; 34). 2. Support post made of metal according to claim 1, characterized in that the pressure piece (3) is a ring part with an external cubic shape, which on two opposite sides has inclined surfaces (4) that incline downwards, and that the displaceable part serving for the rough setting ( 7) has inclined surfaces that come into contact with the horizontal edges (6) of the pressure piece (3), and also has flanges (8) that are equipped with holes (9) that can accommodate the pin (10), and at wedges (16) if inclined surfaces come into contact with the inclined surfaces on the press - piece (3) and with the inclined surfaces of the displaceable part (7), the fine adjustment in a manner known per se taking place by means of an eccentric (14) which is equipped with a operating weight arm (15) and sits on a pin (13) on the pressure piece (3). 3. Support post according to claims 1 and 2, characterized in that the inclined surfaces of the part that can be moved on the lower tube are formed of U-irons which are firmly connected to brackets (8) through which the fixing pin (10) is guided. 4. Support post according to claim 1-3, where the distances between the axes of the holes (9) placed in the brackets (8) are equal to half of the distances between the axes of the holes (11) placed in the lower tube, characterized in that the distance between the axes of the holes in the vangs (8) practically corresponds to the lifting height that can be achieved with the help of the eccentric. 5. Modification of a support post made of metal according to claim 1, where the pressure piece (30) consists of a block which has a concave surface (31) which comes into contact with the upper pipe, characterized in that its opposite, flat surface ( 32) comes into contact with a single wedge (33), the opposite surface of which is in contact with an inclined part of a part (34) which forms the locking body and which consists of a fitting, which due to its concentric shape is in contact with it upper pipe on the opposite side of the one that touches the wedge, and which is equipped with holes that can receive the fixing pin (10).