CONTAINMENT SYSTEM

Abstract

A containment system (1) for providing a substantially dust-tight working space (100) surrounding a work area (101), comprising: a flexible enclosure (2) adapted to be assembled around the work area and provided with an outlet opening (3); a suction hose (4) connected with the outlet opening of the flexible enclosure; a vacuum device (5) connected with the suction hose to draw air from within the flexible enclosure; and an air inlet device (6) adapted to introduce air into the flexible enclosure; wherein the flexible enclosure in an assembled state comprises a main body section (21) defining the substantially dust-tight working space, the main body section having a lower funnel-shaped section (22) extending downwards and terminating in the outlet opening, and wherein the flexible enclosure is composed by one or more flexible sheets (23) having a plurality of edges adapted to be assembled to provide the main body section.

Claims

1. A containment system (1) for providing a substantially dust-tight working space (100) surrounding a work area (101), comprising: a flexible enclosure (2) adapted to be assembled around the work area and provided with an outlet opening (3); a suction hose (4) connected with the outlet opening of the flexible enclosure; a vacuum device (5) connected with the suction hose to draw air from within the flexible enclosure; and an air inlet device (6) adapted to introduce compressed air into the flexible enclosure; wherein the flexible enclosure in an assembled state comprises a main body section (21) defining the substantially dust-tight working space, the main body section having a lower funnel-shaped section (22) extending downwards and terminating in the outlet opening, and wherein the flexible enclosure is composed by one or more flexible sheets (23) having a plurality of edges (24) adapted to be assembled to provide the main body section.

2. A containment system (1) according to claim 1, wherein said containment system is a frameless containment system.

3. A containment system (1) according to claim 1, wherein the flexible enclosure is composed by one or more flexible sheets (23), such as 2-4 flexible sheets (23), joined along their edges (24, 26) to provide the flexible enclosure.

4. A containment system (1) according to any of the claim 1 or 2, wherein the edges of the one or more flexible sheets are adapted to be joined onsite during assembly of the flexible enclosure around the work area.

5. A containment system (1) according to any of the preceding claims, wherein edges (26) of the parts of the flexible sheets defining the lower funnel-shaped section are pre-joined prior to delivery of the flexible enclosure.

6. A containment system (1) according to any of the preceding claims, wherein the edges of the flexible sheets are adapted for being assembled around structures extending in and out of the working space.

7. A containment system (1) according to any of the preceding claims, wherein the edges of the flexible sheets are adapted for being assembled around structures extending in and out of the working space, through magnetic means, located within the edges.

8. A containment system (1) according to any of the preceding claims, wherein the flexible enclosure comprises one or more flexible access sleeves (7) extending from the main body section and being adapted for accessing the working space defined by the flexible enclosure, the flexible sleeves being provided with an opening (71), which may be opened and closed by folding back and forth a flap (72) of the flexible sleeve material overlapping the opening.

9. A containment system (1) according to any of the preceding claims, wherein the suction hose comprises a distal section (41) arranged in continuation of the outlet opening, the distal section having a reduced diameter (d) and being connected with the remaining suction hose via a connector (42) provided with an external inlet opening (43) fluidly connecting the suction hose with surrounding air to regulate an amount of vacuum provided by the suction hose on the flexible enclosure.

10. A containment system (1) according to any of the preceding claims, wherein the flexible enclosure is made from a polymer sheet material of a polyethylene composition comprising flame-retardants and/or antistatic agents.

11. A containment system (1) according to any of the preceding claims, wherein the air inlet device comprises a compressed air hose (8) entering the flexible enclosure through the outlet opening.

12. A containment system (1) according to claim 11, wherein the compressed air hose entering the flexible enclosure through the outlet opening is contained in the suction hose (4).

13. A containment system (1) according to claim 11, wherein the compressed air hose comprises a diffuser (13) provided at an outlet of the hose to diffuse the air exiting the hose.

14. A containment system (1) according to any of the preceding claims, wherein the suction hose is provided with an enclosure outlet connector (9) comprising a locking mechanism (91) adapted to releasably secure the flexible enclosure to the suction hose.

15. A containment system (1) according to claim 10, wherein the flexible enclosure comprises a disc shaped hose connector (10) arranged with the outlet opening going through a central opening (11) in the disc connector and the locking mechanism being adapted to receive the disc shaped hose connector to secure the flexible enclosure to the suction hose.

16. A containment system (1) according to any of the preceeding claims 10-14, wherein the suction hose (4) and/or the compressed air hose (8) comprise antistatic materials.

17. A containment system (1) according to any of the preceeding claims 10-15, wherein the suction hose (4) and/or the compressed air hose (8) consist of antistatic materials.

18. An abrasive blasting system (110) for performing abrasive blasting operations, comprising a containment system (1) as described in any of the claims 1-17; and a blasting device (111); the blasting device comprising a blasting unit (112) provided with a blasting hose (113) for providing pressurized blasting media to a blasting nozzle (114) arranged inside the assembled flexible enclosure.

19. An abrasive blasting system (110) for performing abrasive blasting operations, comprising a containment system (1) as described in any of the claims 1-17; and a blasting device (111); the blasting device comprising a blasting unit (112) provided with a blasting hose (113) for providing pressurized blasting media to a blasting nozzle (114) arranged inside the assembled flexible enclosure; and a recycling unit (115) cooperating with the vacuum device of the containment system to receive used blasting media withdrawn from the flexible enclosure, wherein the recycling unit is adapted to separate reusable blasting media from the used blasting media and feed the reusable blasting media into the blasting unit.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0040] The containment system according to the invention will now be described in more detail with regard to the accompanying figures. The figures show one way of implementing the present invention and is not to be construed as being limiting to other possible embodiments falling within the scope of the attached claim set.

[0041] FIG. 1 shows a schematic drawing representing a blasting system comprising a containment system,

[0042] FIG. 2 shows the layout of one embodiment of a flexible enclosure comprising four flexible sheets,

[0043] FIG. 3 shows the flexible enclosure of FIG. 2 in an assembled state providing a main body section defining a substantially dust-tight working space,

[0044] FIGS. 4 and 5 show a containment system comprising a flexible enclosure provided with access sleeves,

[0045] FIG. 6 shows a plurality of flexible sheets adapted to be assembled to provide the flexible enclosure shown in FIG. 7,

[0046] FIGS. 8a and 8b show details of the access sleeves of the flexible enclosure,

[0047] FIGS. 9a and 9b show the enclosure outlet connector and the cooperating hose connector for being mounted on the flexible enclosure around the outlet opening, and

[0048] FIG. 10 shows a cross-section of the enclosure outlet connector and part of the suction hose.

DETAILED DESCRIPTION OF AN EMBODIMENT

[0049] FIG. 1 illustrates an abrasive blasting system for performing abrasive blasting operations on a work area 101. The abrasive blasting system comprises a blasting device 111 and a containment system 1 for providing a substantially dust-tight working space 100 around the work area. The blasting device comprising a blasting unit 112 provided with a blasting hose 113 for providing pressurized blasting media to a blasting nozzle 114 arranged inside a flexible enclosure 2 of the containment system. Further, the blasting device is provided with a recycling unit 115, which via a vacuum device 5 receives used blasting media from the flexible enclosure for recycling.

[0050] The vacuum device 5 is connected to a suction hose 4 connected to the flexible enclosure to withdraw used blasting media from the flexible enclosure by providing a vacuum. Blasting media expelled from the blasting nozzle during blasting operations is thus collected inside the flexible enclosure and returned to the blasting device. The used blasting media is then processed by the recycling unit and reintroduced to the blasting unit for use in the blasting operation.

[0051] As described above the containment system comprises a flexible enclosure adapted to be assembled around the work area 101. As shown in FIG. 2, the flexible enclosure in an assembled state comprises a main body section 21 having a lower funnel-shaped section 22 extending downwards and terminating in an outlet opening 3. In FIG. 2 the flexible enclosure is shown to be composed by four flexible sheets having a plurality of edges adapted to be assembled to provide the main body section. However, the flexible enclosure may also be composed by fewer or more flexible sheets. FIG. 4 illustrates how the flexible enclosure may be composed by two flexible sheets, which are assembled to provide the main body section.

[0052] The containment system further comprises a vacuum device 5 provided with a suction hose 4 connected to the outlet opening 3 of the flexible enclosure. Hereby, air, dust, and blasting media may be drawn from within the flexible enclosure. To prevent the flexible enclosure from collapsing, an air inlet device 6 is provided to introduce air into the flexible enclosure. Air is thus simultaneously injected and sucked out of the flexible enclosure to prevent the pressure inside the enclosure from dropping, which would make the flexible enclosure collapse.

[0053] Returning to FIG. 3, it is seen how the flexible enclosure is assembled around a work area 101 and comprises a main body section 21 and a lower funnel-shaped section 22 terminating in an outlet opening 3 provided at a bottom of the flexible enclosure. To support the flexible enclosure in an assemble state, the flexible enclosure may be hung from a wire or string (not shown) mounted at a top part of the main body section, such as the highest point of the flexible enclosure shown in FIG. 3. Alternatively, the flexible enclosure may be supported by a wire or the like extending between opposite points of attachment and stretching through the flexible enclosure. From FIG. 3 it is further seen that the edges of the flexible enclosure may be assembled around structures, such as pipes or the like, that extend through the working space.

[0054] FIG. 4 and FIG. 5 shows a flexible enclosure assembled from two flexible sheets. The edges 24 of the opposite flexible sheets are assembled around pipes comprising a pipe flange requiring maintenance. The pipes thus enter the flexible enclosure where the edges 24 of the opposite flexible sheets are joined. Hereby, openings are provided in the flexible enclosure to accommodate structures, such as pipes, that may intersect the work area. The joining of the edges of the flexible sheets provides a substantial dust-tight connection around the pipes. If the connection between the pipe and the flexible sheets is not sufficiently tight, additional sealing means, such as tape, may be used to provide a substantially dust-tight connection.

[0055] In some embodiments, the additional sealing means are magnetic means, such as one or more magnets located, at least partially, along the openings edges of the the flexible enclosure so as to provide substantially dust-tight connection between the pipe and the flexible sheets.

[0056] The edges of the flexible sheets may be assembled by being adhered together. For this purpose, an adhering material such as glue or tape may be disposed on the edges. Hereby, the flexible enclosure can be assembled by simple joining and pressing together the edges 24. Other means may also be used for joining the edges, such as but not limited to hook and loop fasteners, zip-locks, zippers, buttons or reusable glue connections providing releasable joinable edges. Further, edges of the flexible enclosure may be joined on-site by welding.

[0057] The flexible enclosure may thus be a disposable device adapted for one time use only. Hereby, when an abrasive blasting operation or other maintenance operations have been terminated, the flexible enclosure is dismantled and disposed of. However, the edges may also be provided with means providing releasable joinable edges 24 to allow reuse or repositioning of the flexible enclosure.

[0058] In one embodiment the flexible sheets are made from a transparent polymer-based material. It is thus possible to see through the flexible enclosure during operation of the blasting nozzle or the like positioned inside the enclosure. More specifically the material may be a polyethylene composition comprising flame-retardants and/or antistatic agents. Antistatic or electrically dissipative properties may prevent dust from attaching to the inside of the flexible enclosure, hence, preserving visibility.

[0059] From FIG. 4 it is further seen that the flexible enclosure is provided with a viewing device 12 for providing improved visibility into the flexible enclosure. The viewing device is a reusable element, which can be demounted and re-used with another flexible enclosure. The viewing device may be provided with a lens for expanding the area inside the enclosure that can be seen through the lens.

[0060] In FIG. 4 it is further seen how the enclosure outlet connector 9 is connected with the flexible enclosure and the air inlet device comprises a compressed air hose 8 entering the enclosure through the outlet opening 3.

[0061] FIG. 4 and FIG. 5 also show flexible access sleeves for accessing the working space. The access sleeves are made of the same material as the flexible enclosure and integrated herewith as will be further described below. The flexible sleeves extend from the main body section and they are provided with an opening 71 for accessing the working space. FIGS. 8a and 8b illustrates how the opening of a sleeve may be opened and closed by folding back and forth a flap 72 of the flexible sleeve material overlapping the opening. One edge of the flap is secured to the sleeve along the edge of the opening 71, and side edges of the flap are secured to the sleeve in a longitudinal direction thereof. Hereby, the flap together with the sleeve provides a pouch covering or containing the opening 71. To open the opening, the flap is folded around the edge of attachment along the opening 71. Hereby, the pouch is turned inside out and access to the opening is provided, as the opening is thus no longer inside the pouch.

[0062] Referring to FIGS. 6 and 7, in one embodiment the flexible enclosure is composed by two flexible sheets 23 each being assembled from a main body pieces of flexible sheets material 25a and a funnel section piece, 25b. Both pieces comprise a trapezoid shaped protrusion 28 extending downwards from the main body pieces 25a and upwards from the funnel section piece 25b, when viewed as presented in FIG. 6. When the edges 27 of the pieces of flexible sheet material 25a, 25b are joined, for example by welding or gluing, two separate flexible sheets are provided. The joining of the edges 27 of the trapezoid shaped protrusions 28 provides the access sleeves previously described. Further, the edges 26 of the parts of the flexible sheets defining the lower funnel-shaped section are adapted to be permanently joined, e.g. by welding, to provide the flexible enclosure. The remaining edges 24 of the flexible sheets are adapted for being joined during assembly of the flexible enclosure around the work area. FIGS. 9a and 9b show the enclosure outlet connector and the cooperating hose connector 10 mounted on the flexible enclosure around the outlet opening (flexible enclosure not shown). The enclosure outlet connector comprises a locking mechanism 91 for releasable securing the flexible enclosure 2 to the suction hose. The disc shaped hose connector 10 is arranged with the outlet opening going through the central opening 11. By securing the locking mechanism around the hose connector, the flexible enclosure is securely connected to the suction hose. The hose connector may be manufactured from a relatively rigid material such as plastic, metal, or cardboard, but not limited hereto.

[0063] In the shown embodiment, the locking mechanism comprises a locking ring 92 having two articulated ring pieces 93 adapted to engage with the disc shaped hose connector 10 to secure the flexible enclosure. However, the locking mechanism also may be designed in a number of other ways without departing from the invention.

[0064] From FIGS. 9a and 9b, it is further seen that the air inlet device comprises a compressed air hose entering the flexible enclosure through the enclosure outlet connector and the outlet opening. The compressed air hose comprises a diffuser 13 provided at the outlet of the hose to diffuse the air exiting the hose.

[0065] FIG. 10 shows a cross-section of the enclosure outlet connector 9 and part of the suction hose 4. The suction hose comprises a distal section 41 arranged in continuation of the outlet opening 3. The distal section has a reduced diameter (d) compared to the remaining suction hose. The distal section 41 is connected with the remaining suction hose 4 via a connector 42 provided with an external inlet opening 43 fluidly connecting the suction hose with surrounding air. Depending on the pressure inside flexible enclosure and the suction hose, air may thus be sucked into the suction hose during operation of the containment system. By allowing air to be sucked into the hose, the amount of vacuum provided by the suction hose on the flexible enclosure is automatically regulated.

[0066] Although the present invention has been described in connection with the specified embodiments, it should not be construed as being in any way limited to the presented examples. The scope of the present invention is set out by the accompanying claim set. In the context of the claims, the terms comprising or comprises do not exclude other possible elements or steps. In addition, the mentioning of references such as a or an etc. should not be construed as excluding a plurality. The use of reference signs in the claims with respect to elements indicated in the figures shall also not be construed as limiting the scope of the invention. Furthermore, individual features mentioned in different claims, may possibly be advantageously combined, and the mentioning of these features in different claims does not exclude that a combination of features is not possible and advantageous.