BE690389A - - Google Patents

Description

  

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   A lifting device for a ventilation duct, as well as a method for lifting said ducts by means of said device, "
The present invention relates to a lifting device which is used when mounting ventilation ducts under a ceiling, as well as to a method for lifting the ducts by means of said lifting device.



   The ventilation ducts are generally placed under the ceiling of a room, in the immediate vicinity of one of the walls. Currently, the assembly of these pipes always gives rise to a serious problem, more particularly when it comes to very high rooms, and

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 This assembly causes high costs which are not very proportional to the intended purpose. Due to the high air pressures prevailing in the pipes, it is impossible to provide us with mounting or screws in the said pipes since they could This will lead to leaks.

   Therefore, these pipes are generally mounted using support members in the form of bars, for example pendular supports, and transverse support beams which connect the support bars in pairs; then, the lower face of the pipe is placed on these supports. Similar methods have also been proposed.

     However, regardless of the method of assembly used, the difficulty always lies in the fact that the pipe must be brought from the floor under the ceiling in a well-defined position and which it must be maintained in this place * @@ before the pendulum supports. and the support beams, or other support members, are mounted and adjusted, this difficulty being all the greater as ceilings are at 6 or 8 m. height are not exceptional in industrial premises.



   The invention aims to provide a solution to the problems enumerated above and to allow a single worker to lift sections of assembled pipe, as well as heavy pipes. Co object is achieved by means of the lifting device and the method according to the invention.



   Two embodiments, given by way of non-limiting example, are shown in the accompanying drawings, in which:
Fig. 1 is a perspective view and partially in section of a first embodiment of the lifting device according to the invention.



   Fig. 2 is a perspective view, partially in section, of another embodiment of the lifting device.



   Fig. 3 is an elevational view illustrating the lifting of a pipe section by means of several lifting devices according to FIG. 2.



   Fig, 1 shows a lifting device for lifting part 1 of a ventilation duct which, in the case in question, has a rectangular cross section and is assembled to

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 ; xutex parts into a pipe section long enough to lift it. On the ceiling are: seen two fixed supports 2, each by means of a compensation screw 3.

   The holes 4 for these screws are advantageously of elongated shape, so that the supports can be moved with respect to the screws and that they must not be located exactly at the location of the holes, on the ceiling, The supports 2, in the form of box, are provided, 1 each of their front faces, with a hole b 1 or 6 oriented horizontally.
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  One of the holes is intended for fixing the support element for the pipe, while the other hole comes out for hooking up the lifting device. The lifting device according to the invention
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 consists of a simple paddle surrounded twice by the cable, the free end of which surrounds the 3x pulley, provided laterally. The fixed pulley of the hoist is hooked into hole 5 of one of the supports provided on the ceilings The movable pulley of the hoist is divided into two pulleys, 6, arranged separately in the direction of the orientation of the cable and each of which is provided in one of the two envelopes 9, placed at the edges
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 bottom of the pipe.

   In this form \: '\' Ícn..5 envelopes for the pulleys are bowed at the ends of I.1.l. = -w 's support 10 which can be adjusted té3escpi.qumat the width of the ... pipe. The pulleys are surrounded by a cable 11 to 4eti, .r3rs: and 13, the strand 13 being free and provided with a hook 14 which $ .ac1Jch in the hole 5 of the other support 2. The pulley 7 carries a di5posit .! &. f blocking 15 with automatic action for the cable and which coopà <1 with 15 pulling strands 16 of the cable. However, advantageously, this locking device for the cable can also be arranged on the support bar. The envelopes 9 for the pulleys are formed by the
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 the angular 17 which apply against the edges of the pipe, as well as by the angular plates 18 which rest on the ground.



   The assembly of a ventilation duct is carried out in the following manner; after fixing the supports to the ceiling, the pipe sections are assembled on the ground, in a number which allows them to be lifted simultaneously; To this end, the lifting devices are arranged in an appropriate number around the sections of the frame.
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 nalization and are then hung on the supports located at p, s ,.

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   bottom, then this part of the pipe is raised to the necessary height and the support elements are mounted and adjusted. Finally, the lifting devices are removed.



  FIG, 2 shows another embodiment of the invention and which does not differ from that of FIG. 1 that because the strand 13 of the cable is provided with a helical spring 20 which, in the case considered, is executed in the form of an extraction spring but which can of course also be produced in the form of a compression spring, loaded in the opposite direction. Moreover, this form of execution differs from that described above only by details which a'affect in no way the principle which is the basis of the invention. For example: the telescopic support bar 10 is omitted and the bottom plates 18 have a different shape. The holes, provided by the support arms, serve for the winding members of a steel strip by means of which the pipeline must be fitted.

   These all are used at the same time for hooking up the lifting device,! and this, so that the pulley fixed? 7 is fixed to a tenon 19 which is inserted into a pair of holes in one of the supports provided on the ceiling.



  The free terminal eyelet of the spring 20 is placed on a tenon 21, inserted in the other support of the ceiling, The lifting device according to the embodiment of the pin 2 is used as follows: after assembly of the 'a suitable number of pipe sections, for example four, the fitter fixes a number of lifting devices, designated by A, B, C and D in FIG. 3, to the various supports on the ceiling and place these devices around the pipe. Then the fitter stretches the lifting devices in any sequence, so that each of the springs is tensioned with a force which is equal to the gravity influencing the pipeline, divided by the number of lifting devices. The automatic locking 15 of the cable blocks the latter in the tensioned position.

   As a result, the pipeline is influenced by an upward force which is equal to gravity, so that the pipeline is lifted slightly from the ground. Then, the fitter exerts a traction on the traction strands of the cables, and this, advantageously in the order A, B, C, D, in order to prevent any sagging.

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 of the pipe, At this point the fitter must exert a force corresponding to the previous tension, plus some additional force in order to lift the end of the pipe, and this,

   until the moment when the combined reduction in the tensions of the other springs corresponds to this additional force and compensates for it. At this point, it suffices for the fitter to make sure that all the springs are tensioned throughout the lifting period and, advantageously, he exerts a traction on the cable whose spring is the least tensioned, so as to always use maximum energy from spring tension.

   For example, when the pipeline weighed 400 kg, gravity, influencing the said pipeline, is approximately 4000 N (Newton). Therefore, the fitter only needs to exert a corresponding force. weighing at 500 N, plus the additional force which depends on the height to which the pipe must be lifted.



   When it comes to charging)! particularly heavy, it is possible to fix two lifting devices to each of the pairs of supports provided on the ceiling, the first of these devices being fixed in the manner described above, while the second is fixed, by its end. free bearing the spring, on the same support as the pulley which, for its part, is fixed to the same support as the pulley of the second lifting device. To this end, the cable is guided on an additional pulley of the other support and is oriented horizontally along the pipe to the tenth pulley, In this way,

   the pull arms of the two lifting devices are placed one beside the au. be.



   The advantage of the so-called lifting device according to the invention lies in the fact that the springs accumulate 1 energy since they are tensioned by a determined value and that this accumulated energy, plus additional energy, is used for the lifting of the channelization, As a result, an energy is obtained which depends on the value of the extension of the springs and their tension.

   The effect is therefore, from all points of view, the same as that obtained when using hoists surrounded three or more times by the cable, however with the difference that the lifting device according to the invention is considerably easier to handle than the device

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 a long targeted can get tangled. An additional effect of the springs lies in a reduced stress on the connections between the different sections of the pipe, as well as in a compensation for local overloads.



  ¯¯ R E V E N D 1 C A T I O N S.



   1. Lifting device for ventilation pipes, characterized in that it consists of a simple hoist surrounded twice by the cable and whose fixed pulley can be hooked to a support provided in the ceiling and used for mounting the pipe , while the movable pulleys are divided into two pulleys, arranged separately in the direction of the orientation of the target and which are placed at separate points along the lower part of the periphery of the channel * in, the ' free end of the hoist target can be connected to the other support provided on the ceiling.

 

Claims (1)

2.- Lifting device according to claim 1, characterized in that the pulleys forming the movable pulley are arranged in envelopes which are supported at the ends of a support bar which is telecopically adjusted to the width of the pipe. , 3.- Lifting device according to claims 1 or 2, charac- terized in that the free end of the target is provided with an elastic client which, during its tension, absorbs the tensile forces acting in the direction of the cables 4. A lifting device according to claim 3, characterized in that the elastic element forms the end of the free end and carries, at its free end, a device allowing it to be attached to the support provided on the ceiling, 5.- Lifting device according to claims 3 or 4, charac- terized in that 1 elastic element is formed by a helical traction spring. 6.- Lifting device according to one of claims 3 to 5, characterized in that the fixed pulley is provided with a locking device, acting on the cable in the downward direction of the latter. 7, - Proceeds for the lifting of a section of pipe in <Desc / Clms Page number 7> using the lifting device according to one of claims 3 to 6, characterized in that several lifting devices are distributed along the section of pipe and are fixed to the corresponding supports $ located on the ceiling, as well as around the section of pipe, then the lifting devices and, therefore, their elastic mounts are stretched with a force which is equal to the gravity influencing the section of the pipe, divided by the number of lifting devices, finally, the pulling strands of the cables of the lifting devices are submitted, one after the other, pulling the force of which is slightly greater than the tension of the springs, until the pipe is lifted to the desired height,