BE1010525A4 - Protective structure. - Google Patents

Abstract

The subject of the invention is a protective structure provided with a support member, for supporting a canvas roll on which a canvas or similar protective element must be wound and unwound. The fabric roller must therefore be rotated by means of a drive motor connected to the fabric roller and cooperating with a regulating member which, when the fabric is wound, stops the motor after the motor has completed a defined number of revolutions during the winding of the fabric or similar protective device. The motor output shaft is coupled to a transmission member provided with a thread, this thread coming into engagement with a complementary thread which is formed in a second transmission member connected to the canvas roller, the two transmission members being able to slide relative to each other against the thrust of a spring.

Description

       

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  Protection structure
The invention relates to a protective structure, provided with a support member for supporting a canvas roll on which a canvas or similar protective element is to be wound up and unrolled, the canvas roll having to be put for this purpose. in rotation using a drive motor connected to the canvas roller cooperating with a regulating member which, when winding the canvas, stops the motor when the motor has made a defined number of revolutions during the winding of the canvas or similar protective element.



   When winding a canvas or a protective element or similar screen of a protective structure, for example a blind or sun tent of the type described above, the problem arises that the canvas or the screen or the like is subjected to stretching and shrinking due to atmospheric conditions, while dirt may also be present on the canvas. These varying conditions mean that it is not possible to guarantee that a canvas or similar screen is completely wound on the canvas roller, in the desired manner, when the engine is stopped. Another risk is that, when the fabric is completely rolled up, the motor continues to be supplied and possibly burns.



   The object of the invention is to obtain a protection structure of the aforementioned type, in which it is possible to overcome this drawback.



   According to the invention, this object can be achieved by the fact that the output shaft of the engine is coupled to a transmission member provided with a thread, this thread cooperating with a complementary thread which is disposed on a second transmission member connected to the canvas roller, the two transmission members being able to slide relative to each other against the thrust of a spring.



   When using the structure according to the invention, it is possible to adjust the number of revolutions that the engine must make before stopping, so that in

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 practical it will always be guaranteed that the canvas will be completely wound up. In general, the fabric will thus already be completely wound before the engine has completed the necessary number of turns. When the structure according to the invention is used, if the canvas is fully wound, the canvas roller can no longer be driven further, due to the resistance exerted on the canvas, but the two transmission members will slide l 'relative to each other over a certain distance, against the spring thrust, until the engine is disconnected.



   By using the protective structure according to the invention it is possible, using simple means, to obtain a safe winding and unwinding of a canvas or similar screen to be wound on a roller for canvas, so as to always ensure a correct winding canvas or screen or the like.



   The invention will be explained in more detail below using a few embodiments shown schematically in the accompanying figures.



   Figure 1 shows part of a canvas roller with a drive motor installed therein, Figure 2 shows a section along line IIII in Figure 1, Figure 3 shows a part of the transmission mechanism between the motor and the roller for fabric, FIG. 4 schematically represents an embodiment of a protective structure, FIG. 5 diagrammatically represents a side view of an embodiment of a similar protective structure, FIG. 6 shows on a larger scale, part of the protective structure shown diagrammatically in FIG. 5, FIG. 7 gives a plan view of FIG. 6, partially in section, FIG. 8 shows the roller for canvas of the

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 protective structure of figures 5-7, partially in section,

   Figure 9 shows one end of the fabric cross member of the protective structure of Figures 5-8, Figure 10 shows a section through an arm of the protective structure shown in Figures 5-9, with support for fixing of this arm, and FIG. 11 shows a side view of FIG. 10.



   In FIG. 1 is shown in section a part of a roller for fabric 1, which can for example form part of a blind or of a similar protective structure, and which will be mainly placed in a protective box, not shown in detail, fixed for example to a wall of a building, so that the canvas roller can rotate around its longitudinal axis 2.



   In the canvas roller 1 is taken up a tube 3 concentrically surrounded by the canvas roller, this tube being mounted near one end, in a support ring 4 surrounding the tube 3 and pressed into the roller 1 on a part of its length.



   As shown in more detail in Figure 3, in the wall of the tube 3 are made two holes 5 arranged in diametrically opposite positions, which are each configured symmetrically with respect to a plane sharing the middle of the tube 3, and passing through the middle of the corresponding hole 5, the width of which gradually decreases from one end to the other. The purpose of these cutouts 5 will be explained in more detail below.



   A drive motor in the form of an electric motor 6, taking a fixed position during normal use of the awning or the solar tent, is arranged in the nozzle 3. The motor can be stopped using a regulating member 7, for example after having carried out the number of turns required to rewind the fabric on the fabric roller 1 from the fully unwound state. Such a regulating and regulating member is known per se, and therefore should not be described further.

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 detail here. To determine the number of revolutions of the motor, the regulating member cooperates with the tube 3 which is rotated by the motor as described below.



   The output shaft 8 of the motor 6, of non-cylindrical shape, is pressed into a cutout of corresponding shape, which is formed in the end of a shaft 9 whose axis coincides with the axis 2 of the canvas roller .



   At its periphery, the shaft 9 is provided with two keyways 10 arranged in diametrically opposite positions. The part of the shaft 9 which is located in the tube 3 is surrounded by a transmission member 11 which has more or less the shape of a threaded rod, and which is therefore provided at its periphery with a thread 12. A at its inner periphery, the threaded rod is provided with keys 13 which engage in the keyways 10, so that the transmission member 11 can slide along the shaft in the longitudinal direction of the shaft 9 , but cannot rotate relative to this tree.



   One end of the transmission member 11 projecting from the tube 3 is carried by a transmission member 14, of annular shape, disposed against the end of the tube 3, and an internal bore of which is provided with a thread complementary to the thread 12 The annular transmission member 14 is prevented from rotating relative to the fabric roller 1. Around the end of the shaft 9 projecting from the tube 3 and of the annular transmission member 14, is installed a helical compression spring 15 which is immobilized between the end of the transmission member 11 and an immobilization ring 16 disposed on the end of the shaft 9.



   As still shown in FIG. 1, near one end of the transmission member 11, on the outer periphery of the transmission member 11, keys 17 are formed which are housed in the cutouts 5.

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   When the structure according to the invention is used, the motor 6 can be put into operation for winding up the fabric. The motor 6 will rotate the shaft 9 and therefore the transmission member 11 and the tube 3.



  At the start, the spring 15 will prevent the transmission member 11 from sliding along the shaft 9 and the transmission member 11 will drive the transmission member 14 and therefore the canvas roller 1, so that the canvas will be rolled up on the canvas roll.



   At some point, it may be that the canvas is fully wound, and the continuation of the winding of the canvas and therefore the continued rotation of the roller for canvas 1 prevented, for example by the fact that a canvas cross or similar, installed at the end of the canvas opposite the canvas roller, abuts against fixed stops. The adjustment will be such that the motor 6 will then not yet have carried out the preset number of revolutions, and will therefore not yet be disconnected by the regulating member 7.

   As the nut-shaped transmission member 14 is blocked, while the transmission member 11 driven by the motor continues to rotate, due to the threads 12 of the outer periphery of the transmission member 11 and the threads complementary to the inside of the nut 14 the transmission member 11 will move to the right of FIG. 1, on the shaft 9, against the action of the spring 15. Thus, the motor 6 can still turn over a certain angular distance after the roller 1 has been retained, and before the motor 6 is disconnected.



   The keys 17 could be guided in grooves made in the wall of the tube 3, and extending parallel to the axis 2 of the tube 3. In the embodiment of the structure, the keys 17 move on the contrary along guide surfaces formed by the lateral edges of the cutouts 5 which, as shown in FIG. 3, seen from above of the tube 3, form an angle with the surface passing through the axis 2.

   Therefore,

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 during the sliding of the transmission member 11, to the right in FIG. 1, the tube 3 will be slightly turned back with respect to the direction of rotation, whereby, for a smaller displacement of the transmission member 11 in the longitudinal direction of the canvas roller 1, the motor can rotate at a greater angle than if the keys were guided parallel to the axis 2.

   Thanks to the use of V-shaped cutouts, this embodiment is suitable for mounting on the left end as well as for mounting on the right end of the canvas roll, unlike an embodiment in which instead of the V-shaped cutouts 5, grooves, for example rectilinear, with left or right steps, would have been installed in the wall of the tube.



   The drive structure described above is not only particularly suitable for winding fabrics. solar blinds or tents usually used, but also for example for winding canvas of a structure of the type shown schematically in Figure 4.



   As shown schematically in Figure 4 (see also Figure 8), this is a protective structure with a canvas roller 18 at the ends of which two belt pulleys 19 and 20 are fixed. The canvas is here attached to the canvas roller at one end, and at the other end to a canvas cross member 21 shown in dotted lines. The ends of a drive belt 22 are fixed to the canvas cross-member, this drive belt being guided around deflection rollers 24 and 25, and through the canvas cross-member 21 along deflection rollers 23 The ends of the belt 22 are fixed to the pulleys for the belt 19 and 20.



  The embodiment is thus such that, when the canvas is unwound from the canvas roller, the belts 22 and 23 are wound on the belt pulleys 19 and 20, while during the winding of the canvas, during from which the canvas cross member 21 is drawn at

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 again in the direction of the canvas roller 18, the belts 22 and 23 are unwound from the pulleys for belt 19 and 20.



   Such a protective structure is for example used in so-called greenhouses where, as shown schematically in Figures 5-7, a roller for canvas is taken up in a protective box 26, and the crosspiece for canvas 21 is guided by its ends along guide beams 27 connecting to the protective box 26 and extending more or less horizontally, while guide beams 28 of the web cross member 21, extending downward and bearing for example on the ground by a lower end, are moreover connected to the ends of these guide beams 27 remote from the protective box 26.



   It will be clear that, during the winding and unwinding of the canvas, it cannot be guaranteed that, for example during the winding of the canvas the belts will be fully unwound, and conversely that when the belts are completely wound up the canvas will also be completely unwound, since variations may also appear here in the winding and unwinding. In this case also, the structure described above can be successfully used.



   As shown in more detail in Figure 8, inside the tube 18 of the canvas roller is again installed a coupling tube 29 surrounded centrally by the canvas roller 18, in which a motor drive 30 is arranged fixed. The belt pulley 20 is fixed to one end of the coupling tube 29 projecting from the canvas tube.



   At the inner end of the coupling tube 29, there is a connecting piece 31 which is provided with a non-circular hole in which is inserted the output shaft 32 of the motor 31, of corresponding cross section. In the connecting piece 31, the end of a shaft 33 is also inserted, which is provided

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 at its outer periphery of keyways, similar to the shaft 9 of the previous embodiment.



   The end of the shaft 33 is fixed to the connecting member 31 by means of a pin 34, by means of which the connecting member 31 is also fixed to the coupling tube 29.



   The shaft 33 is surrounded by a tube 35 forming a transmission member, which is provided on the outside with a thread corresponding to the thread of the transmission member 11 of the first embodiment.



   The transmission member 35 rests at one end in a sliding part 36 disposed in the canvas roller and forming a transmission member, which is provided with an internal thread corresponding to the thread of the transmission member 35. In the member transmission 36 is formed a groove 37 in which is disposed the part of the canvas roller 18 constituting the channel part 38 for taking up the end of the canvas, so that the transmission member cannot rotate relative roller for canvas.



   On the side remote from the transmission member 36 is mounted a compression spring 39, disposed around an extension of the shaft 33 and pressed against the end of the transmission member 35, which is immobilized between the spring of compression and the end of a connecting tube 40, surrounding the end of the shaft 33 and fixed on the shaft 33 with a pin 41. If desired, the tube 40 can be still supported in one or more places by support rings 41 arranged in the canvas roller.



   The end of the tube 40 remote from the shaft 33 is taken up in a connection plug 42, disposed in the end of the canvas roller and fixed on the tube 40, and on which the pulley 19 with belt is fixed.



   The canvas roller described above can be taken up in the protective box 26 as in

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 particular shown schematically in Figure 6.



   As shown more particularly in FIG. 7, supports 43 to which the ends of the arms 27 are coupled are fixed to the ends of the protective casing 26. The arms 27 are thus coupled with a hinge to the supports 43 at the using studs 44 vertically crossing the shaft of the canvas roller, and in the normal use position shown in Figures 5-7, they are prevented from rotating around studs 44 using screws 45. Guide rollers 46 of the belt 22 are also arranged in the supports 43.



   As further shown in FIG. 9, at the ends of the canvas cross member 21 are fixed guide rollers 47 with the help of which the canvas cross member is guided along the arms 27 and 28. In addition, at the ends of the sleeper for canvas 21 are fixed projecting supports 48, the ends of which are distant from the ends of the sleeper for canvas have a semi-circular path for guiding the belt 22 which, as already indicated above, extends inside the cross-member for canvas and inside the arms 27 and 28.



   As the arms 27 are hinged to the casing 26 by means of the studs 44, and moreover the arms 27 and 28 are preferably also coupled to each other so that the arm 28 can be tilted up against arm 27, from the position shown
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 in FIG. 5, the arms 27 and 28 folded against each other for transporting the protective structure from the factory to the place of use, can be folded parallel to the canvas roller 18, against the box 26. In general, there will be sufficient play in the hinges so that the different arms rest one above the other and parallel to the longitudinal direction of the canvas roller.

   If necessary, the hinge studs 44 may be arranged slightly oblique, in order to be able to arrange the arms one

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 above each other.



   Thanks to this pivoting coupling of the arms 27 and 28 on the box 26, the protective structure can be mounted completely at the factory, so that at the place of assembly, it suffices to pivot the arms 27 and 28 in the desired position relative to to the protective casing 26, and to fix the protective structure to the building or the like.



   For fixing the protective structure described above, it is expedient to make use of the support members shown in Figures 10 and 11. As shown in Figure 10, the arm 27 has in cross section a substantially rectangular shape and in a corner of the profile where two walls arranged perpendicular to each other connect to each other in a curved part, is arranged a groove 49 accessible from the outside of the profile, in the shape of a T in section transverse and extending in the longitudinal direction of the arm.



   A coupling piece 50, the cross section of which is L-shaped, can then be tightened in the position shown in solid lines in FIG. 10 and in the position 50 ′ shown partially in FIG. 10 in dotted lines, using screws 51 and nuts 52 arranged in the groove 49 and cooperating with these screws 51.



   At one end of the coupling member 50, an arm 54 is coupled by one end to the end of the coupling piece 50 by means of a pin 53 extending perpendicular to the longitudinal direction of the arm 27. The arm 54 can be brought by pivoting into a desired position relative to the coupling member 50, and be immobilized in the desired position using a bolt 55. At the end of the arm 54 which is distant from the coupling piece 50, an arm 57 is pivotally coupled by means of a pin 56 extending parallel to the shaft 53. The arm 57 can be immobilized in a desired position using of a bolt 58.

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   In the position of the support member formed by the parts 50, 54 and 57 shown in FIGS. 10 and 11, the arm 27 can be fixed above a support beam or the like. The height position of the arm 27 relative to the support beam or the like can then be defined by the pivoting of the arms 54 and 57.



   In the position of the support member shown in dotted lines in FIG. 10, the beam 27 can be fixed on the lateral side of a support beam or the like. Here also, an appropriate distance can be adjusted between the arm 27 and the corresponding support beam supporting the arm 27, by pivoting the parts 54 and 57.



   If the fabric is to be wound up using the motor 30, the fabric roller 18 will be rotated using the motor 30. At first, the fabric roller 18 will be driven via the two transmission members 35 and 36 which during the winding of the canvas on the canvas roller 18 will not rotate relative to each other.



  When the fabric is completely rolled up, in general the motor 30 will continue to rotate a little, as described above. The transmission member 15 will then slide relative to the transmission member 36, in opposition to the action of the force of the spring 39. The belts 20 can thus still be somewhat unwound.


    

Claims (12)

Claims 1. Protective structure, provided with a support member, for supporting a canvas roll on which a canvas or similar protective element must be wound and unrolled, the canvas roll having to be rotated for this purpose using a drive motor connected to the canvas roller and cooperating with a regulating member which, when winding the canvas, stops the motor after the motor has made a defined number of turns during the winding of the fabric or similar protective member, characterized in that the output shaft of the motor is coupled to a transmission member provided with a thread, this thread coming into engagement with a complementary thread which is formed in a second transmission member connected to the canvas roller,  the two transmission members being able to slide relative to one another against the thrust of a spring.  2. Protective structure according to claim 1, characterized in that the transmission member driven by the motor is installed so as to be able to slide on a shaft driven by the motor, against the action of a spring. surrounding the tree but so as not to be able to rotate relative to this tree.  3. Protective structure according to claim 1 or 2, characterized in that the transmission member driven by the motor is provided at its outer periphery with a thread which cooperates with a thread which is formed in a bore produced in the transmission member connected to the canvas roller.  4. Protective structure according to one of the preceding claims, characterized in that the transmission member driven by the engine is surrounded by a tube which cooperates with a stationary regulating member, with a view to disconnecting the engine when the engine has achieved the desired number of turns, and in that the transmission member is provided with a key arranged in a cutout made in the tube and extending in the  <Desc / Clms Page number 13>  longitudinal direction of the tube.  5. Protective structure according to claim 4, characterized in that the cutout has an edge cooperating with the key and forming an angle with the axis of the tube.  6. Protective structure according to claim 5, characterized in that the cut in the wall of the tube has the shape of a V, and in that its longitudinal axis is arranged in a diametral plane passing through the axis of the tube.  7. Protective structure according to one of the preceding claims, characterized in that near at least one end of the canvas roller is disposed a belt pulley secured to the motor shaft, to which a belt is coupled which is at the same time coupled to one end of the fabric remote from the canvas roller, so that the belt which is unwound from the belt pulley during the winding of the canvas on the canvas roller, and conversely that the belt is wound on the belt pulley during the unwinding of the canvas from the canvas roller.  8. Protective structure according to claim 7, characterized in that near the two ends of the canvas roller is disposed a belt pulley driven directly by the motor.  9. Protective structure, in particular according to one of the preceding claims 7 and 8, characterized in that near the ends of a support taking up the  EMI13.1  roller for canvas are installed arms for the p guide of a cross for canvas installed on the free end of the canvas or similar screen, these arms being hinged, by their end located near the support of the roller for canvas, when said support by means of hinge pins crossing at least approximately perpendicular to the axis of the roller for canvas, so that the arms can thus be placed in positions at least approximately parallel to the roller for canvas.  <Desc / Clms Page number 14>    10. Protective structure according to claim 9, characterized in that at the ends of the arm remote from the support structure of the canvas roller are arranged other arms for guiding the ends of the canvas cross-member, these arms capable of being pivoted relative to the former, from a service position in which the arms form an angle with one another until in a position where the arms are located in positions at least approximately parallel to each other 'other.  11. Protective structure according to claim 9 or 10, characterized in that on the ends of the web sleeper are arranged guide members for the belt driven through the web sleeper.  12. Protective structure, in particular according to one of the preceding claims 9-11, characterized in that on the outside of an arm of the protective structure is arranged a coupling part having in cross section the general shape of 'L, a coupling arm which can be adjusted at the end of a branch of this coupling part, using a hinge pin, and which can be immobilized in a desired position, while at the end of the coupling arm which is distant from the coupling part, a second coupling arm is arranged so that it can pivot and be immobilized in a desired position relative to the first coupling arm, this second arm of coupling being intended for attachment to a support structure,  and the coupling part and the arm of the protective structure being made so that the coupling part can be fixed in a first position on the arm of the protective structure, in which the branch carrying the arms coupling is located below the arm of the support structure, and in a second position in which the branch of the coupling piece carrying the coupling arms extends  <Desc / Clms Page number 15>  along a lateral edge of the arm of the protective structure.