FR3022813A1 - METHOD AND DEVICE FOR SUCTION OF PARTICLES HAVING ASPHALT-PREVENTION FASTENING MEANS - Google Patents

Abstract

The present invention relates to a simple and handy suction device (1) capable of being attached to an outer wall of an object which may have a complex shape and intended for the suction of particles produced by machining or fitting or any other operation. The device (1) comprises a tip (8) in communication with pumping means through a pipe to allow the suction of said particles. It also comprises a sucking type suction cup (16) in communication with said pumping means through at least a portion of said channel.

Description

The present invention relates to a suction device capable of being attached to an outer wall of an object. More particularly, the present invention is applicable to the suction of particles produced by machining or fitting or any other operation.

TECHNICAL FIELD When assembling an aircraft, it is necessary to carry out operations producing a large quantity of particles such as machining, adjusting operations or any other type, especially on composite panels. PRIOR ART In order to protect themselves from the particles produced, the operators wear protective equipment including gloves, disposable clothing, protective goggles and respiratory masks. The use of all these equipment reduces ergonomics. In addition, it involves inventory management of these consumables. It would therefore be desirable to reduce their size or even to reduce their number. Moreover, emitted particles such as dust, fibers or equivalents contaminate the ambient air, the airplane parts and the working environment. This results in a risk of inhalation for operators outside the 25 periods of work on the panels when they lack protective equipment. In addition, the pollution generated on the aircraft parts can be harmful for subsequent operations such as for example the painting of these parts. It is therefore necessary to remove the particles from the surrounding environment as quickly as possible. Finally, the panels on which the operations are carried out can have complex shapes, varied reliefs: they are for example often on concave plane. Holes are to be made near angles. It is therefore not possible to use devices incorporating a suction system in view of their weight and size. SUMMARY OF THE INVENTION The present invention therefore aims to overcome all these drawbacks and to provide a simple and manageable suction device of particles produced by the operation performed allowing the operator to reduce his protective equipment. The present invention proposes for this purpose a suction device comprising a nozzle in communication with pumping means through a pipe to allow the aspiration of particles characterized in that it comprises a suction suction type suction cup in communication with said pumping means through at least a portion of said pipe.

Therefore, by taking the same energy for the creation of a vacuum allowing both the maintenance of the device and the aspiration of particles, the resulting device is lightweight and easy to use. In addition, by its suction gripping system, it applies to any type of surface.

According to one embodiment of the invention, the nozzle is connected to the pumping means by a pipe provided with an opening at which the suction cup is fixed.

In addition, a connecting shell connects the neck of the suction cup to the pipe.

The tip advantageously has an end of reduced size. According to a particular embodiment, the endpiece comprises an end of annular shape and a circular end, the ring having an oblong shape with two axes of symmetry whose dimension along one of the axes of symmetry is less than the diameter. of the annular end. The device may comprise a valve for adjusting / cutting the suction flow. The valve is for example interposed between the pipe and the tip.

In addition, a handle accessible from the outside of the device allows the adjustment of the valve. Preferably, a hinge is provided to allow the orientation of the tip.

The present invention also relates to a process for extracting particles produced by a tool operating in a work zone, characterized in that it comprises the steps of: positioning the suction cup of a suction device according to the present invention invention on a wall so that the tip is found closer to said tooling work area; - Operate the pumping means to create a suction in the pipe so that the suction cup adheres to said wall and simultaneously the particles produced by the tool are sucked.

SUMMARY DESCRIPTION OF THE DRAWINGS Other objects, advantages and characteristics of the invention will appear on reading the following description of the device according to the invention, given by way of non-limiting example with reference to the accompanying drawings in which: Fig. 1 shows a perspective view of an embodiment of the suction device according to the present invention; - Figure 2 shows a schematic plan view of the device according to the present invention in operation attached to a wall and placed near a tool.

HOW TO CARRY OUT THE INVENTION As represented in FIGS. 1 and 2, the suction device 1 according to the present invention is independent of any other tools of the adjustment, machining or other type, hereinafter referred to as the tooling 2. The device 1 comprises at least three blocks each providing at least one own function. A first block 3 of the device 1, called the suction block 3 ensures the aspiration of the particles: it must be kept in operation as close to the tooling 2. A second block 4 has the function of fixing the device 1 to a object and is called in the following block 4 fixing. According to an example illustrated in FIG. 2, only one wall 5 of this object is shown. The wall 5 is flatly depicted but it can take any type of shape. A third block 6 is optional: it is located between the suction block 3 and the fixing block 4 to cut the suction if necessary while maintaining the tool attached to the wall 5 of the object. It can also allow the adjustment of the suction flow. It will be designated block 6 of adjustment. A fourth block 7, called junction block makes the connection with an air pump that allows to create a vacuum or any other equivalent system leading to a suction that will be referred to later as the pumping means.

The pumping means are of known type and are therefore not represented. The suction control block 6 can also be inserted between the fixing block 4 and the block 7 junction. However, in this embodiment, when the suction is cut, the fixing block is no longer operational as will be seen later and the device 1 can be detached from the wall 5. The block 6 being optional, it is possible to provide a suction device 1 without suction cutting means, or flow control means that are accessible directly on the device 1 itself. In the latter case, the suction block 3 is joined to the fixing block 4 itself connected to the block 7 junction: the suction can then for example be cut or adjusted at the pump means.

Each of the blocks 3, 4, 6, 7 may form an independent individual element or be associated with at least one other block of the device to form a single block. In a particular example, the four blocks are integrally formed. In the illustrated embodiment, each of blocks 3, 4, 6 and 7 is independent. As will be seen later, they are joined by interlocking two by two. The blocks can be fixed to each other by any other type of known means. The suction block 3 of the device 1 comprises a suction nozzle 8.

One of the ends 9 of the nozzle 8 has an orifice 10 of reduced section to direct the suction flow as close as possible to the zone in which the tooling 2 operates. In the embodiment illustrated, the end 9 of the tip, called suction end is cylindrical non-circular annular section while the other end 11 of the tip, called connecting end is cylindrical circular section. The annular end 9 comprises two axes XX and YY symmetry shown in Figure 1. According to the embodiment shown, the tip is placed relative to the wall 5 so that one of the two axes XX is parallel to the wall 5. The segment connecting two points of the ring, passing through the center of the annular end and oriented along the axis XX in FIG. 1, has a length greater than or equal to the diameter of the circular end 11 of the tip. The segment connecting two points of the ring, passing through the center of the annular end and oriented along the axis YY in Figure 1 has a length less than the diameter of the end 11 circular tip. The shape of the section of the suction end 9 as opposed to that of the connecting end 11 is chosen to concentrate the jet in one direction. More specifically in the example shown, the section of the annular end 9 has two semicircles joined by straight segments. The diameter of the semicircles is smaller than the diameter of the circular section of the end 11 of connection of the tip. The tip 8 could have any other type of shape such as for example frustoconical or cylindrical elliptical section or oval side of the end 9 with a circular end 11 cylindrical ... In the example shown, the block 6 of adjusting / cutting the suction flow connects the suction block 3 to the block 4 fixing. Block 6 comprises a pipe 12 of cylindrical shape. In the example shown, the pipe 12 has a circular section. The driving could obviously have any other type of shape. The profiles of the ends of the pipe 12 must be such that they allow the junction with the adjacent blocks. Thus in the embodiment shown in the drawings, the section of the end 13 of the pipe 12 has the same shape as the end 11 of the connection piece 8, namely circular and a substantially greater diameter so as to make the junction by interlocking. The pipe 12 contains means 14 for cutting the suction and for example a valve 14 of known type. The integrated valve inside the pipe 12 makes it possible to stop the suction of the particles easily and quickly at any time, which may be necessary for a variety of reasons and for example to reduce the noise caused by the suction. The pumping means can remain in operation which keeps the device 1 hooked to the wall while having stopped the suction at the nozzle 8. The opening / closing of the valve 14 is obtained using a handle 15 accessible from outside the pipe 12. The means 14 may be such that they allow an adjustment of the flow rate of the suction according to the rotation performed at the handle 15.30 The fixing block 4 attached directly at the suction block 3 or through the adjusting block 6 comprises a suction cup 16 or any other equivalent device suction grip type. The suction grasping device will be designated in what follows by the term suction cup. The suction cup 16 may have any type of known shape. In the present embodiment, the bell-shaped suction cup has a chamber 17 forming a cavity 18. The suction cup 16 has a flared flange 19 for improving the seal with the wall 5 on which it is intended to be applied. The material chosen for the suction cup is a resistant, waterproof material, of such a flexibility that the suction cup can adapt to non-planar walls 5 likely to have an irregular relief. The suction cup may be constituted for example of rubber. The neck 20 is the end of the suction cup opposite the flange 19.

The fixing block 4 comprises a cylindrical pipe 21 of circular section having an opening 22 through which the pipe 21 and the suction cup 16 communicates. The pipe 21 could have any other type of shape. The suction cup 16 is connected to the pipe 21 via the opening 22. A connecting shell 23 is provided to allow a sealing connection of the neck 20 of the suction cup 16 with the pipe 21. According to a particular embodiment, the pipe 21 and the suction cup 16 form a single piece. The diameters of the pipe 21 and the pipe 12 or in the case of a direct connection of the block 4 with the block 3 the diameters of the pipe 21 and the end 11 of the connection are chosen to allow interlocking connection of the pipe 21 with the pipe 12 or the end 11 of connection. In the illustrated embodiment, the diameter of the pipe 21 is slightly greater than that of the pipe 12. The longitudinal axis of the pipe 21 is superimposed with that of the pipe 12.30 The block 7 of junction comprises a cylindrical tube 24 of circular section . The tube 24 and the pipe 21 are interlocked. The diameter of the end portion 25 of the tube 24 intended to come into connection with the pipe 21 is chosen so as to allow interlocking connection between the tube 24 and the pipe 21. The tube 24 may have several parts of different diameters depending on the environment and what it needs to connect to. In the illustrated embodiment, the tube 24 is bent. Thus, the longitudinal axis of the end portion 25 of the tube 24 is superimposed with the longitudinal axis of the pipe 21 and the pipe 12. The end portion 25 of the tube 24, the pipe 21 and the pipe 12 form a cylindrical pipe along the wall 5 parallel to it. The suction cup 16 is connected to the pumping means via the pipe 21 and the tube 24. The nozzle 8, the pipe 21, the tube 24 and optionally the pipe 12 form a suction channel in which the particles circulate as represented by the larger diameter arrows in Figure 2. The pipe 21, the tube 24 and optionally the pipe 12 form a pipe allowing using the pump means to which they are connected to suck the particles produced by the tool 2 through the nozzle 8. According to a particular form of the invention, the suction cup 16 could be associated with the nozzle 8 if it has a shape adapted to receive it. In this case, the pipe also includes a portion of the nozzle. As seen previously, the blocks can be associated to become one and the same element. Thus, the tube 21 and the pipe 24 and / or the pipe 24 and the nozzle 8 can be one. The tube 24 has a portion 26 bent. The curvature provided by the bent portion 26 allows the tube 24 to take a direction opposite to that of the wall 5 to join the pumping means. The suction end 9 is intended to be directed closer to the zone in which the particles are produced. So that the suction end 9 is directed towards the wall 5 on which or near which operates the tool 2, there is provided a portion 27 bent either in the nozzle 8 of the suction block 3 or in the pipe 21 of the fixing block 4 is in the pipe 12 of the adjustment block 6 or with the aid of an additional bent piece. In this way, the suction nozzle 8 or a part thereof does not run along the wall 5 but is directed towards it. The longitudinal axis of the tip 8 or the free end portion thereof forms an angle with the longitudinal axis of the pipe 12 and the pipe 21 such as the tip and more precisely the free end portion of the tip can be placed closest to the area in which the tooling 2 operates.

A hinge is provided to allow to orient the tip in the desired direction. The joint can be provided at the junction between blocks, or be part of the tip 8 itself or another block. In the illustrated embodiment, the bent portion 27 is made of accordion so as to be flexible and allow the orientation of the tip 8 to be changed in order to adapt it to the tooling 2 or to the operational zone thereof. ci at the wall 5. The device 1 operates in the following manner. As seen above, the suction cup 16 is connected to the pumping means via the pipe 21, the tube 24 and possibly the pipe 12. In known manner, the pump means which can be in the form of a pump to air submit suction cup 16 to vacuum: the suction cup is activated by the pressure difference between the inside (created vacuum) and outside (atmosphere).

The suction cup adheres by suction on the wall 5 as indicated by the arrows in Figure 2 and thus allows the device 1 to be fixed thereto. The tip 8 is thus maintained in a position that is determined using the hinge provided for this purpose. Moreover, as previously seen, the suction nozzle 8 is connected to the pumping means by the pipe. The pumping means draw air near the end 9 of the nozzle 8 and thus allow the suction of the particles produced by the tool 2 towards which the tip 8 is directed as shown by the arrows in Figure 2. Thus the communication of the suction cup 16 and the tip 8 to the pumping means by the same pipe allows to use the same energy for the operation and maintenance of the suction device 1. The device 1 uses the vacuum generated to ensure the aspiration of the particles and to achieve the attachment of the device to the wall 5. Due to the suction operation of the flexible suction cup 16, the maintenance of the device 1 is assured regardless of the shape of the wall 5 on which it is arranged. It is possible to activate the handle 15 to stop the suction, adjust the flow rate of the suction or even according to the positioning of the block 6, detach the device from the wall 5.

The suction device offers a small footprint for easy use and easy handling. The suction is ensured regardless of the type of tooling 2. The suction device 1 is independent of the tool 2 and therefore offers greater ease of use.

The present invention is not limited to the aeronautical field. The suction device according to the present invention could be used in many other technical fields in which it would be advantageous to have a suction device that is compact and can easily be attached to any type of wall.

Claims (9)

CLAIMS1 - Suction device comprising a nozzle (8) in communication with pumping means through a pipe to allow the aspiration of particles characterized in that it comprises a suction grip type suction cup (16) in communication with said pumping means through at least a portion of said pipe. 2 - Suction device according to claim 1, characterized in that the tip (8) is connected to the pumping means by a pipe (21) provided with an opening (22) at which the suction cup (16) is fixed. 3 - Suction device according to claim 2, characterized in that a connecting shell (23) connects the neck (20) of the suction cup (16) to the pipe (21). 4 - Suction device according to one of claims 1 to 3, characterized in that the tip (8) has an end of reduced size. 5 - Suction device according to claim 4, characterized in that the tip (8) comprises an annular end and a circular end, the ring having an oblong shape with two axes of symmetry whose dimension according to 1 one of the axes of symmetry is smaller than the diameter of the circular end. 6 - Suction device according to one of claims 1 to 5, characterized in that it comprises a valve (14) for adjusting / cutting the suction flow. 7 - Suction device according to claims 2 and 6, characterized in that the valve (14) is interposed between the pipe (21) and the nozzle (8). 8 - Suction device according to one of claims 6 or 7, characterized in that a handle (15) accessible from outside the device allows the adjustment of the valve (14). 9 - Suction device according to one of claims 1 to 8, characterized in that a hinge (27) is provided to allow the orientation of the nozzle (8). - A method of suction of particles produced by a tool (2) 10 operating in a work area characterized in that it comprises the steps of: - positioning the suction cup (16) of a suction device according to the one of claims 1 to 9 on a wall (5) so that the tip (8) is found closer to said working area of the tool (2); - Operate the pumping means to create a suction in the pipe so that the sucker adheres to said wall (5) and simultaneously the particles produced by the tool (2) are sucked. 25 30