BE1011863A4 - Suction device and suction process - Google Patents

Abstract

Suction device of dust and fine particles comprising a suction head, a tube connecting the suction head to a suction unit to suck up the dust and fine particles from the head to the suction unit, and a pipe to supply the gas from the pressurised gas source to the head, characterised in that the pipe leads to a pressurised gas distributor, the said distributor has one or more orifices with an opening of less than 4 mm2, and preferably less than 2 mm2.<IMAGE>

Description

       

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  Suction device and suction method The present invention relates to a dust and fine particles suction device comprising a suction head, a pipe connecting the suction head to a suction unit for sucking dust and fine particles from the head to the suction unit, and a conduit for supplying gas from a source of pressurized gas into the suction head.



  We know from document US-A-4,018. 483 a device of the type described in the first preceding paragraph. In the device according to this document, the head has a slot through which the pressurized air from the duct passes. The air leaving the slit pushes the dust towards a suction opening. This air does not have a sufficient speed to take off the dust from the support. In addition, this device does not allow effective treatment of carpets, in particular of long pile carpets. Indeed, the air exiting through the slit is not able to penetrate between the hairs to reach the base of the carpet and tends to flatten the hairs towards the base of the carpet.

   The device according to this document is thus incapable of lifting dust, insects, microscopic animals, ticks, fleas, etc., located at the base of the carpet to allow easy aspiration of these.



  The present invention aims to remedy these drawbacks and relates to a device for correctly lifting dust, particles, insects, microscopic animals, ticks, fleas located at the base of the hairs of the carpet to allow easy suction thereof. The treatment of carpets using the device according to the invention is thus faster and more efficient than the treatment carried out using the device according to document US-A-4. 018. 483. In addition, it has been found that the device according to the invention makes it possible to restore bulk to the carpet.



  One embodiment of the invention makes it possible to sweep and vacuum hard surfaces (smooth concrete, tiles, marbles, etc.) over a very large width (up to 1. lm,

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 or more), while conventional vacuum cleaners have a suction width limited to around 40 cm.



  The device according to the invention is characterized in that the duct opens into a pressurized gas distributor. said distributor having one or more orifices having a passage opening of less than 4 mm2, preferably less than 2 mm2.



  The shape of the orifice passage surface is arbitrary. but is preferably substantially circular. The diameter of the orifice is in this case advantageously less than 1.5 mm, in particular about 1 mm.



  According to an advantageous feature of the device according to the invention, the dispenser has several orifices having a passage opening of less than 2 mm2, said orifices being spaced apart by a distance of at least 0.4 mm, for example from a distance between 0.5 and 1 cm.



  Preferably, the head has a suction opening connected to the pipe, while the orifices of the dispenser are arranged to expel dust or fine particles towards the suction opening.



  According to one embodiment. the head has a frame defining a suction window facing the dust or fine particles to be sucked and a suction opening connected to the pipe, said head defining a suction chamber extending between said suction window and the suction opening. The dispenser has a first series of orifices arranged to expel dust or fine particles in a first direction, advantageously towards the suction opening, and a second series of orifices arranged to expel dust or fine particles in a second direction. fine particles, advantageously towards the suction opening, said second direction comprising a component at least opposite to a component of the first direction.

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  Preferably, the frame defines a substantially planar suction window and in that the orifices of the distributor are arranged so as to direct the gas under pressure towards the outside of the chamber or out of the chamber in a direction comprising a component located in the plane of the window or parallel to said plane puts a component perpendicular to said plane of the window.



  In particular, the distributor comprises a distribution ring having a series of orifices arranged so as to direct pressurized gas towards the outside of the chamber in a direction comprising a component situated in the plane of the window or parallel to said plane, this component being directed towards the center of the distribution ring and a component perpendicular to said plane of the window.



  According to another particular feature, the distributor comprises two distribution branches which are substantially parallel to each other and each having a series of orifices, the orifices of a branch being arranged so as to direct pressurized gas towards the outside of the chamber in a direction comprising a component located in the plane of the window or parallel to said plane, this component being directed towards the other distribution branch and a component perpendicular to said plane of the window.



  According to an advantageous embodiment, the device comprises a means for controlling the distributor or the source of gas under pressure to ensure an intermittent distribution of gas under pressure or a variation of pressure of the gas or a variation of the flow rate of the gas under pressure. This embodiment is advantageous because it makes it possible to subject the materials raised outside the belt to be subjected to a greater suction, since during the non-injection of gas, the suction must no longer suck a volume of injected gas.



  The invention also has a method for vacuuming dust or fine particles present on a support. in particular a carpet, in which a device according to the invention is used.

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  In this process. the surface to be treated is subjected. for example a carpet surface with the simultaneous action of one or more fine and concentrated jets of pressurized gas and suction. This process allows the gas to enter the carpet to lift the hairs from the carpet and lift the dirt present in the carpet. The suction of dirt is thus easier.



  According to a possible embodiment, nitrogen or a nitrogen-rich gas is used as the gas under pressure. The use of nitrogen makes it possible to kill or put to sleep certain insects, microscopic animals, ticks. chips, so that their aspiration is easier.



  Advantageously, the distribution of gas under pressure is controlled, so as to ensure an intermittent distribution of gas under pressure and / or a variation in the pressure of the gas and / or a variation in the flow rate of gas under pressure. For example, the surface to be treated is subjected to a series of pulses of pressurized gas, two successive pulses, for example with a duration of between 1 and 20 seconds,
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 advantageously from 5 to 15 seconds, said pulses being separated from each other by a period of time comprised for example between 1 and 10 seconds, advantageously from 5 to 10 seconds.



  Special features and details of the invention will emerge from the following detailed description in which reference is made to the accompanying drawings.



  In these drawings. Figure 1 is a perspective view of a device according to the invention: Figure 2 considers a bottom view of the device of Figure 1; ! a Figure 3 is a sectional view along line III-III of the device of Figure 1; FIG. 4 shows on a larger scale the gas jet leaving an orifice of the distributor of the device of FIG. 1: FIG. 5 is a partial sectional view of another device according to the invention:

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 Figure 6 is a sectional view of another device according to the invention; Figure 7 is a bottom view of the device of Figure 6; Figure 8 is a view of a suction head for large widths.



  The device in FIG. 1 is a device for extracting dust and fine particles comprising a suction head I, a pipe or a connector 2 connecting the suction head 1. possibly with the interposition of a flexible pipe, to a suction unit (such as a vacuum cleaner, etc.) to suck up dust and fine particles from head 1 to the suction unit, and a conduit 3 to bring a pressurized gas into head 1, this pressurized gas from a source of pressurized gas, such as a compressed gas cylinder. an air compressor, an apparatus for forming pressurized steam, etc.



  The conduit 3 opens into a pressurized gas distributor 4, said distributor 4 comprising two branches parallel to each other 40, 41 which each have a series of orifices 50, 51 having a substantially circular passage opening of approximately Imm in diameter. (passage area less than Imam).



  The distance D separating two adjacent orifices 50 or 51 from a branch 40 or 41 is approximately 0.6 cm.



  Advantageously, the branches 40, 41 are extended by lateral tabs 42, 43 each having an orifice 44 arranged to blow the dust raised towards the suction orifice of the suction pipe 2.



  In the present case, the total passage area of the orifices was from 3 to 10 mm 2 (for example approximately 7 mm 2) for a pressure of compressed air in the pipe 3 between for example from 2.5 to 10 105 Pa (for example about 3 105 Pa). The air leaving through the orifices had an exit velocity at the orifice of more than 10 m, in particular of more than 20 m / s.



  The head 1 is formed by a hollow body 10 having a frame 11 provided with a skirt 12, the end of which is intended to come into contact with the surface to be treated. The framework

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 defines a suction window 13 facing the dust or fine particles to be vacuumed. The head 1 has a suction opening 14 connected to the pipe 2. Said head defines a suction chamber 15 extending between said suction window 13 and the suction opening 14.



  The distributor 4 has a first series of orifices 40 arranged to expel dust or fine particles in a first direction X and a second series of orifices 50 arranged to expel dust or fine particles in a second direction Y, said second direction Y comprising a component YI at least opposite to a component X 1 of the first direction X.



  In fact, the orifices 50. 51 of the distributor are arranged so as to direct the gas under pressure in a direction X, Y comprising a component Xt, Yl situated in a plane Z parallel to the plane Z 1 in which the window 13 extends and a component X2, Y2 perpendicular to said plane Z 1 of the window 13 and directed towards the outside of the chamber 15. The angle a between the direction X, Y and the plane Z 1 is advantageously between 65 and 78.



  In the embodiment of Figure!, The orifices 50 of a first branch 40 are arranged so as to direct pressurized gas towards the outside of the chamber in a direction comprising a component XI situated in a plane parallel to the plane of the window, this component Xl being directed towards the second distribution branch 41. while the orifices 51 of the second branch 41 are arranged so as to direct pressurized gas towards the outside of the chamber in a
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 direction comprising a component Y 1 situated in a plane parallel to the plane of the window, this component YI being directed towards the first distribution branch 40.



  In this way, it is avoided that the jets of compressed air leaving the orifices cause displacement of the head towards the front A or towards the rear AR.



  The device is optionally provided with a molen 100 mounted on the pipe 3 to
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 control the supply of pressurized gas to ensure intermittent delivery 1

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 of pressurized gas or a change in gas pressure or a change in the flow of pressurized gas. One such means is for example an electro-controlled valve which allows the opening of the valve for a determined period of time and then the closing of the valve for a short period of time.



  The device shown in Figure 1 allows efficient and rapid treatment of carpet 200. In fact the jets of air, steam or other gases exiting through the orifices of the distributor 4 penetrate at precise points in the carpet which are distant from each other. These air jets thus raise the dirt present in the vicinity of the bottom 201 of the carpet, but also on the adjacent hairs during the upward movement of the air touching the bottom 201. Given the local impact of each air jet on the carpet, the hairs are not substantially flattened. In addition, the upward movement of the air after touching the bottom of the carpet helps to restore bulk to the carpet and thus promotes the suction of dirt. The injected gas can be any gas or vapor.



    The use of a specific gas (nitrogen, etc.) or steam above 120 ° C ensures a disinfecting treatment to kill insects, microscopic animals, ticks, fleas, bacteria, etc.



  Figure 5 is a partial sectional view of another device according to the invention. This device is similar to that of FIG. 1, except that the distributor 4 has the shape of a ring 400. The distribution ring 400 has a series of orifices 401 arranged so as to direct gas under pressure towards the outside of the chamber (that is to say towards the carpet) in a direction X comprising a component XI situated in the plane of the window or parallel to said plane, this component XI being directed towards the center of the distribution ring 400, and a component X2 perpendicular to said plane of the window.



  In the embodiment of FIG. 5, the head 1 comprises an outer envelope 60 and an inner envelope 61, the edge of the envelope 60 being provided with a bristle skirt 62 (flexible skirt). The inner envelope ends with the distribution ring 400. The head 1 is connected to a suction pipe. 2 ensuring suction in the

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 chamber defined by the interior envelope 61 and a suction in the chamber defined between the exterior envelope and the interior envelope. The distribution ring here acts as a seal, so that the suction in the chamber defined by the inner envelope is more efficient (greater suction) and is less disturbed by an intake of outside air.



  The device of FIG. 6 is characterized by a compressed air supply duct 3, the end of which carries, with the interposition of a ball bearing 300, a sleeve 301 extended by two arms 302, 303 situated in the extension one the other. The conduit 3 is held in place in the suction tube. 2 by means of spacers
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 304. The arms 302, 303 are provided with a series of orifices 305 which are arranged to rotate the sleeve and the arms relative to the duct 3, during the ejection of compressed air by the orifices 305. In this embodiment, the dispenser is rotatably mounted on the head.

   Advantageously. each orifice of the arm 302 is distant from the axis of rotation C by a distance dl between two distances d2, d3 separating two orifices of the arm 303 from said axis of rotation. Thus, the orifices of the arm 302 subject the annular zones situated between annular zones treated by the orifices of the arm 303 to a treatment.



  To limit the speed of rotation of the distributor. a brake system or one or more orifices 307 may be provided, the jet of which leaving them partially opposes the rotational thrust due to the air jets leaving the orifices 305.



  The device of Figure 8 includes a suction head having a width of more than 100 cm. This head 1 has a distribution circuit 4 comprising front and rear branches 40. 41 and lateral tabs 46 extending between the axles and rear branches. The lateral branches have orifices for at least partially blowing the dust towards the suction hole.



  The device according to the invention is also suitable for eliminating grass foams.

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  In one possible embodiment, the device comprises a system for mixing the gas to be injected with particles of fine particle size. In this case, it is advantageous to provide a device for recovering the particles leaving with the gas and for recycling them.



  It has been found advantageous to combine the device according to the invention with one or more pressurized water supplies. According to a possible variant, the spraying or ejection of water under pressure is carried out in the head. According to a more advantageous variant, the device is associated with a pressurized water distributor so that the surface to be treated is first treated by means of air or gas jets under pressure with suction and then by means pressurized water jets.



  It has also proved advantageous to heat the air or the gas to be injected into the suction head. Such heating is useful for improving the suction of particles (by the drying effect of wet particles) and the detachment of fatty particles.


    

Claims (1)

CLAIMS 1. Dust and fine particles suction device comprising a suction head, a pipe connecting the suction head to a suction unit to suck dust and fine particles from the head to the suction unit , and a conduit for bringing a gas coming from a source of gas under pressure into the head, characterized in that the conduit opens into a distributor of pressurized gas, said distributor having one or more orifices having a passage opening of less 4 mm2, preferably less than 2 mm2. 2. Device according to claim I. characterized in that the distributor has several orifices having a passage opening of less than 2 mm2, said orifices being spaced apart from one another by a distance of at least 0.4 mm. 3. Device according to claim 2, characterized in that the head has a suction opening connected to the pipe and in that the orifices of the distributor are arranged to expel dust or fine particles towards the suction opening. 4. Device according to one of claims 2 and 3, characterized in that the head has a frame defining a suction window facing the dust or fine particles to be sucked and a suction opening connected to the pipe, said head defining a suction chamber extending between said suction window and the suction opening, and in that the distributor has a first series of orifices arranged to expel in a first direction the dust or fine particles towards the suction opening and a second series of orifices arranged to expel dust or fine particles in a second direction towards the suction opening. said second direction comprising a component at least opposite to a component of the first direction.    <Desc / Clms Page number 11>   5. Device according to claim 4, characterized in that the frame defines a substantially planar suction window and in that the orifices of the distributor are arranged so as to direct the gas under pressure in a direction comprising a component located in the plane of the window or parallel to said plane and a component perpendicular to said plane of the window and directed towards the outside of the chamber. 6. Device according to claim 5, characterized in that the distributor comprises a distribution ring having a series of orifices arranged so as to direct pressurized gas towards the outside of the chamber in a direction comprising a component located in the plane of the window or parallel to said plane, this component being directed towards the center of the distribution ring and a component perpendicular to said plane of the window. 7. Device according to claim 5, characterized in that the distributor comprises two distribution branches substantially parallel to each other and each having a series of orifices, the orifices of a branch being arranged so as to direct pressurized gas towards the exterior of the chamber in a direction comprising a component situated in the plane of the window or parallel to said plane, this component being directed towards the other distribution branch and a component perpendicular to said plane of the window. 8. Device according to one of the preceding claims, characterized in that it comprises a means for controlling the distributor or the source of gas under pressure to ensure an intermittent distribution of gas under pressure or a variation in gas pressure or a variation the flow of gas under pressure. 9. Device according to any one of the preceding claims, characterized in that the distributor is mounted for rotation relative to the head.  10. An assembly for a suction device, said assembly consisting of a device according to any one of the preceding claims, and a gas source under  <Desc / Clms Page number 12>  pressure, in particular a compressor, said source being connected to said device by a conduit.   He. Suction device comprising a suction unit, a source of pressurized gas, in particular a compressor, and a device according to any one of Claims 1 to 9, said device being connected to the suction unit by a hose and source of pressurized gas through a conduit.   ! 2. A method of suctioning dust or fine particles present on a support, in particular a carpet, in which an apparatus according to claim 11 is used.   13. The method of claim 12. characterized in that nitrogen or a nitrogen-rich gas is used as the pressurized gas. 14. Method according to claim 12 or 13, characterized in that the distribution of gas under pressure is controlled, so as to ensure an intermittent distribution of gas under pressure and / or a variation of the pressure of the gas and / or a variation pressure gas flow.