DE1104735B - Pipe distribution device for multiple pipe testing machines - Google Patents

Description

Rohrverteilunqsvorrichtung for Mehrfachrohrprüfma chinen In the so-called multiple pipe inspection machines are a plurality of pipes at the same time checked for leaks. This is done in such a way that the pipes to be tested are parallel to each other at the individual test stations are arranged on the beginning and A so-called test head is placed tightly on the end of each of these pipes and then the leak test by introducing pressurized water at one end of all pipes is made.

The invention relates to a device for distributing all pipes to be tested at the same time on the individual test stations.

It is already known to distribute all the pipes to be tested the individual test stations in a multiple pipe testing machine a so-called loading conveyor and to use a so-called transfer conveyor. The former of these facilities has the task of transporting all pipes to be tested to places which lie vertically above the individual test stations. The second of these facilities has the task of lowering the individual pipes at these points so that they are at the individual probes can be connected.

It is also known in a pipe testing machine each To grasp pipe at the above-mentioned places by an angle lever, the one Has motor drive and the pipe in question then up to that point lower to which the probes are connected to the beginning and the end of the pipe can be.

The invention works with double-armed levers that are freely movable, i.e. do not have a motor drive. This makes it possible the tubes to be rolled to the test device one after the other while avoiding so more complicated Devices as used in the first mentioned known case on to distribute the individual test stations of the multiple pipe testing machine.

The invention relates to a device for NiI-ehrfachrohrp testing machines for distributing a plurality of pipes to the individual testing stations, which means the pipes to be tested along a slightly inclined path to the individual Test stations roll and within the length of the pipes to be tested at least two Walls are arranged, the upper edges of which are inclined and in which on the positions corresponding to the individual test stations, recesses open at the top are attached and is characterized in that between each two of the recesses a double-armed freely movable lever with a swivel joint near the sloping upper edges the walls is attached to one arm of each lever rests against a stop, one arm of each lever in the relevant recess can evade into that one lying above this recess. it tube taking off one arm of the stop and while evading the. them arm in the recess slide in and thus get to the desired test station and that the other arm of the double-armed lever under consideration, the previous recess initially closes and this only releases when one arm is in the first-mentioned recess dodges into it, so that a tube is then also in the previous recess Dodge the one arm of the previous double-armed lever slide in can.

An embodiment of the invention is described below with reference to the Fig. 1 to 4 are explained, while with reference to Fig. 5 is to be shown that according to the invention on the individual test stations of the multiple pipe testing machine distributed pipes together later after the testing process was carried out without difficulty can be removed from the pipe testing machine and removed.

Fig. 1 shows in side view one of at least two within the length of the pipes to be tested and perpendicular to their longitudinal direction Walls 10. The upper edge 11 of this wall is slightly inclined, i. H. runs in Fig. 1 down to the right. In the wall 10 there are a number of recesses that are open at the top 12, 13 and 14 attached.

The pivot joint 15 or 16 is located one between each two recesses double-armed lever. The lever 17 rotatable about the swivel joint 15 has an arm 18, which extends in Fig. 1 above the recess 12 and a second Arm 19 which extends above the recess 13. At the right At the end of the arm 18 there is a nose 20 which rests against a stop 21. Likewise, the lever 22 is located with a Xase located at the end of its right arm 23 against a stop 24. The center of gravity of each of the levers 17 and 22 is liiiks from the pivot point concerned, ie zinc from the pivot joints 15 and 16, so that the position of the two levers 17 and 22 shown in FIG. 1 represents the rest position.

Fig. 2 shows that shown in Fig. 1 in the side view Wall from above and also leaves the recesses 12, 13 and 14. the two levers 17 and 22 with their swivel joints 15 and 16 and with the stops 21 and 24 for the noses located at the right end of the right arm of the two levers recognize.

If now the first of the pipes to be tested, which in Fig. 1 with 25 is designated. Rolls down from the left along the inclined upper edge 11 of the wall 10, so it first reaches the recess 14. The double-armed lever 22 is thus loaded by said tube and the nose 23 at the right end of the right arm this lever is only pressed more firmly against the stop 24. The same applies when the tube 25 has passed the recess 13. It presses on the left there Arm of the double-armed lever 17 and the nose 20 at the right end of the right arm this lever is pressed more firmly against the stop 21 as a result. But when the tube 25 has passed through the recess 12, the real arm 18 of the double lever gives way 17 into the recess 12 into it. as shown in Fig. 3, and that Tube 25 thus slides into recess 12 and may now be at the desired one Test station. The lever 17 assumes the position shown in FIG and is prevented by a stop 26 from moving much further twist as shown in Fig. 3. By the movement which the arm 19 of the Has passed through lever 17 according to FIG. 3, the recess 13 for the second pipe 27, which follows pipe 25, is released so that when pipe 27 üher the recess 13 is rolled, the lever 22 undergoes a pivoting movement and the tube 27 can slide into the recess 13. Another pipe28, which which follows the tubes 27, is thus also, as shown in FIG. 4, into the recess 14 slide in regardless of whether, as illustrated in Fig. 1 to 3, there are only three recesses with two levers together or one larger Number of recesses and levers.

So you can see. that by an apparatus of the type shown in Figs Type a plurality of pipes on the individual test stations of the pipe testing machine can be distributed.

With reference to Fig. 5 will now be explained that one in extraordinary in a simple way all the pipes located in the individual test stations Also remove the execution of the desired leak test from the machine can. Weml namely parallel to the wall 10 another wall 29 with one also inclined, inclined upper edge 30, which is for example parallel to the upper edge 11 the wall 10 can be moved upwards, so are all in the individual test stations located pipes 25, 27 and 28 lifted out of the recesses 12, 13 and 14, so that the levers 17 and 22 then return to their rest position shown in FIG can move back. The tubes 25, 27 and 28 can then on the inclined Unroll the upper edge 30 of the wall 29 to the right and remove it from the machine.

IJATENT CLAIMS 1. Device for multiple pipe testing machines for Distribution of a plurality of pipes to the individual test stations at which the pipes to be tested along a slightly inclined path to the individual test stations rolls and arranged at least two walls within the length of the pipes to be tested are, the upper edges of which are inclined and where the individual Test stations are provided with recesses that are open at the top, characterized in that between each two of the recesses (12, 13, 14) one double-armed, freely movable lever (17, 22) with a swivel joint (15, 16) in near the obliquely inclined upper edges of the walls is attached that the one Arm (18) of each lever rests against a stop (21, 24) and into the relevant Can escape into recess that a pipe lying above this recess (25) lifting this arm (18) from the stop (21) and evading slide this arm into the recess (12) and thus to the desired test station can reach and that the other arm (19) of the double-armed lever considered (17) initially closes the previous recess (13) and only releases it, if one arm (18) moves into the first-mentioned recess (12), so that then also in the preceding recess (13) a tube (27) with evasion of one arm (18) of the preceding double-armed lever can slide in.

Claims (1)

2. Apparatus according to claim 1, characterized in that the focus each lever (17, 22) is on the other side of the pivot point (15, 16) than the Stop (21, 24) for one arm of this lever. 3. Apparatus according to claim 1 or 2, characterized in that at least two walls (29) to remove the pipes from the individual test stations with inclined upper edges (30) are present, which are parallel to the with the Recesses (12 to 14) provided walls (10) can be moved upwards until the The pipes have left the recesses and roll on the sloping upper edges. Documents considered: U.S. Patents No. 2551645, 2 702 130.