EP1039222A1 - Roof lead through for fresh-air and exhaust-air - Google Patents

Abstract

The central tube (4) in the ventilation pipe (3) has a single-piece construction from its open top end (4) down to the bottom end (4) inserted into a muff (22) for another pipe on the inside of the roof. The fan cover (19) and mantle tube (5) are fixed into position in their radial direction. The device extends through the roof covering (2) to connect with a muff in a double-walled pipe on the inside of the roof. The pipe comprises a mantle tube with an open bottom end and a fan cover at its top end, and a central tube passing through and extending vertically above (A) the fan cover. The mantle tube passes through a cap (9) on top of a roof covering panel (8) above the roof opening, this cap preferably being supported against a dome (11) in this panel.

Description

The invention relates to a roof covering built-in device for the passage of Supply air and exhaust air through the roof skin and to Connection to sleeves of a building's double wall pipeline, with an outer, in a down open fan hood and plugged onto the casing tube opening casing tube and an inner, upward open, penetrating the fan cover and at a distance to this end central tube, the jacket tube a passage cap sitting on a roof covering plate, which is preferred on a dome of the roofing slab supports, enforces.

Appropriate roof duct systems for oil and gas powered fireplaces are due to the intense Use of energy from plastic (e.g. PP) producible. The expansion is done via push-in sockets, be it using the chimney of a construction site or else in free assembly, clamp-mounted.

The object of the invention is a generic device advantageous in terms of assembly and stable allocation to train.

This task is first and foremost a generic device with the features of Claim 1 solved, the focus being on that the central pipe from the end of the mouth to the end of the socket in one piece with a constant cross-section is designed and on the fan hood side as well is fixed radially on the jacket pipe side. The former favors consistently equivalent flow conditions, even at the lowest exhaust gas temperatures (in the range from 40 degrees Celsius to 120 degrees Celsius). In return, steps over the left annulus the preheated supply air into the casing pipe Area of the fireplace. The mounting level of the line-forming Elements is best about the second Radial fixings secured. It can be friction-like Conditions exist. Is a radial shift the central tube in relation to the fan cover not desired, these two parts can be integral be connected. It is also proposed that the Radial fixation on the casing pipe side only in one Fan cover bearing and with the passage cap detachably connected Rohrabsohnitt is provided. So can from the pipe section and the radial fixation connected central tube existing unit easy to assign from the top of the roof, d. H. simple slide in, the fan cover being enlarged Handle is available. The usually as Hood part with passage cap can be so on the dome of the roofing slab align that the device is perpendicular having. Due to the given separation point between Pipe section and through cap can be over the length of the device even the roof skin varies, d. H. For example, be enlarged. Reached is that by at least one between the Fan section carrying pipe section and the passage cap insertable intermediate pipe section. It are pipe coupling pieces, for example can be connected to one another via thread engagement. The invention further proposes that the central tube for assembly by frictional connection to the pipe section axially fixed, but is displaceable. The establishes a solution of independent importance insofar as that in the stop-limited joint system standing central tube at the desired height to the top the fan cover can be cut to length. That opens up the possibility of achieving optimal flow conditions and also maintaining ideal distances from Fresh air entry area. Besides that is about too far protruding pipe section itself as Insert handle can be used. Finally there is still one advantageous feature that the jacket tube with a mounting tube section fixed but pivotable is connected to the passage cap. Hereby can have a different adjustment range utilizing reversal of the penetration cap be, or the inclination adjustment already indicated above. The device is also for flat roofs applicable; the cathedral training is then dispensable.

Fig. 1

die als Dachdurchführung realisierte Vorrichtung in Seitenansicht, den Gegenstand bis hin zum Geräteanschluß wiedergebend,

Fig. 2

die Vorrichtung im Vertikalschnitt,

Fig. 3

die Vorrichtung im Vertikalschnitt ohne den in den Figuren 1 und 2 eingeschalteten Zwischenrohrabschnitt,

Fig. 4

den Schnitt gemäß Linie IV-IV in Figur 2,

Fig. 5

die Lüfterhaube in Einzeldarstellung, und zwar in Unteransicht,

Fig. 6

dieselbe im Vertikaischnitt.

The subject matter of the invention is explained in more detail below on the basis of an illustrative embodiment. It shows:

Fig. 1

the device implemented as a roof lead-through in side view, representing the object up to the device connection,

Fig. 2

the device in vertical section,

Fig. 3

the device in vertical section without the intermediate tube section switched on in FIGS. 1 and 2,

Fig. 4

the section along line IV-IV in Figure 2,

Fig. 5

the fan cover in individual representation, namely in a bottom view,

Fig. 6

the same in the vertical section.

The roof duct shown includes one in one Roof cover of a pitched roof built-in device V for the passage of supply air and exhaust air through the Roof skin 2 through, for example formed from roofing panels. A double-wall pipeline is used for this 3. The latter includes a central tube 4 and one Jacket tube 5. Both are preferably made of plastic, for example PP. The casing tube 5 can be the same have the usual diameter of approx. 125 mm, or on the connection side in a corresponding expansion pass over.

The jacket tube 5 runs concentrically to the central tube 4 and leaves an annular space 6. It provides a line for guiding a fresh air flow, designated by Arrow x. The downward flow of fresh air goes to the junction of a device 7, a so-called Boiler or a thermal bath.

The upward exhaust gas flow, line circumscribed by the central tube 4, is with arrow y designated. This counter current flows over the roof.

The double-wall pipeline 3 is partly through socket-end Pipe sections and partly from the device V posed.

The roof covering plate leaving a passage opening Ö 8 is included to form a tube. She points an identical type of construction to the surrounding roofing slabs the roof skin 2. It continues to form a passage cap 9 from. This is part 10 of the hood designed. The latter is based on the top a cathedral 11. That is the top of the roofing slab 8 molded on the same. It leaves in the crown area an elongated hole 12. This extends with its longer side in the direction of inclination of the roof membrane 2. The curvature line lying in this plane of inclination of the dome 11 runs like a circular arc around an axis Radius point P, around which axis the double-wall pipeline 3 tilts relative to the roof covering plate 8.

The radius point P is a short distance above the underside of the roofing panel 8 and intersects a central longitudinal axis z-z of the double-wall pipeline 3. Said longitudinal central axis z-z can be in bring the perpendicular.

The dome 11 generally has lateral flats on. The so achieved essentially parallel Flat walls are leading in the inclination adjustment.

The roof duct 1 can also turn, so that different angular ranges are adjustable can be used. There are two radius points diametrically opposite strips 13 on the Outer wall of the casing tube 5. The slot 12 facing Heads of the strips 13 form a semi-spherical Support surface. The protrudes into a support pocket 14 of the roof covering plate 8. The support pocket 14 is on the roof side open and diverging within the scope of the desired tilt angle the roof covering plate 8.

The strips 13 can be stretched the side walls catch the cathedral 11 if not from the European patent application 0 276 389 B1 known Clamping connection between through cap 9 and dome 11 is applied. The hood part 10 can on the other hand expediently made of flexible plastic be so that when you click the strips 13 in the Support pockets 14 can dodge. This allocation system is the subject of the unpublished German Utility model application 298 18 764.

The hood part 10 of the passage cap 9 sits in an upwardly directed, cylindrical collar 15 away. It has internal threads 16 at the end. In this engages the external thread 17 of a pipe section 18 a (see Figure 3).

The pipe section 18 is that of the device V posed continuation of the casing tube 5.

The upper end 18 'of the pipe section 18 protrudes into one down, d. H. fan hood open to roof skin 2 19. It also points into the interior of the fan cover 19 projecting intermediate ring 20. A fan cover 19 of this kind is the basic principle in German Utility model 296 07 225 explained. In the revelation the present application is hereby also the Disclosure content of this utility model document fully included in content, also for the purpose of characteristics of these documents in claims of the present application to include.

Fan cover 19 and intermediate ring 20 hold the annulus 6 of the double wall pipeline 3 before rain entry etc. protected and on the other hand allow entry of a fresh air stream spatially spaced from the outlet area the exhaust gas flow y. The fresh air flow entry is identified by arrows x '.

The central tube 4, however, penetrates the cap-like Fan cover 19, so that this with respect to the exhaust gas flow y is open at the top.

The relevant mouth end of the central tube 4 is designated 4 '. It is clearly vertical Distance A to the rotation point 21 of the casing tube 5 and wall of the fan cover 19.

The other end on the roof side forms a socket inserting end, declared with 4 ''. That engages poetically a sleeve 22 of an adjoining central tube 23 on. The corresponding addition is up to the junction 7 of the fireplace continued.

The central tube 4 connected to the fan hood 19 is pulled smoothly and in one piece to the docking point. The central tube 4 also has a constant cross section on.

The central tube 4 is also on the fan hood side (Fan cover 19) as well as on the casing pipe side (casing pipe 5) radially fixed and so centered.

The fan hood side fixation can be in one piece Training exist in which the central tube 4th in the area of the penetration point 21 in the wall the fan cover 19 is rooted. For the fresh air inflow x 'maintaining axial spacing supports the Fan cover 19 extending from the underside of its ceiling Spacer 24 at the top of the front of the Fan cover 19 immersing the upper end 18 'of the pipe section 18 onwards. Also from the said ceiling downward outgoing holding tabs 25 get caught on the upper edge of the intermediate ring 20.

The designed as a rotationally symmetrical slat Intermediate ring 20 itself is fixed with radial webs 26 connected to the pipe section 18. The means 24 to 26 are distributed at equal angular intervals. There are at least three. The unit 4/19 is as it were hooked into the casing tube 5 from above. The radial fixation can alternatively also look like that the radial fixation on the jacket pipe side only in one with the fan cover 19 and with the passage cap 9 releasably connected pipe section 18 made is.

The radial fixation to the pipe section 18 is in the Assignment of axially spaced spacer stars 27. Die sit in the annulus 6. They are on the central tube 4 held like a ring clamp. It can be two in a diametrical D-D radially connected Act spring strips 28, the facing away from each other, free ends 28 'like spring tongues on the inner wall of the pipe section 18 friction fit. A the Star form is better justifying tripartite division conceivable, but not shown. The spacer star 27 is biased.

In the case of a non-one-piece design of the central tube 4 with the fan cover 19 has a central Hole 29 on. That is on the outside diameter of the constant cross-section of the central tube 4 voted, but in such a way that over the local, in the penetration point 21 prevailing friction stepless, axial movement of the central tube 4 can be exercised. The distance A shown end portion of the tube 4, as it were Mouth end 4 ', then serves as a gripping handle for the Displacement of the central tube 4 with respect to the sleeve 22 of the central tube 23 and also as impact surface for a striking tool.

The smooth continuous tube 4 can be excess length finished assembly can be cut to the most aerodynamic Bring the excess length of the central tube 4. Corresponding axial displacements also take place in the With regard to the spacers 27 under friction, so that the central tube 4 by said friction to Pipe section 18 axially fixed, but slidable is.

As for the jacket wall tube 5, this is also Sectional part of the roof duct 1. It sets itself as a roof-side addition to the collar 15, more precisely than the dome 11 vertically penetrating pipe section 30 continues. He is firm with the Passage cap 9 connected and pivoted with it.

A sleeve 31 of a cladding tube 32 on the roof space side then forms the continuation of the double-wall pipeline 3 to junction 7.

The sleeves are wall projections by the wall thickness the 4 '' or 30 'socket.

The thread 16/17 between the hood part 9 and the Above pipe section 18 is used for Achievement of different fan tube lengths over the roof. Reference is made to FIGS. 1 and 2. Is recognizable using the internal thread 16 and the external thread 17 an intermediate pipe section 33 into the casing pipe 5 inserted. The latter has an external thread 17 of the pipe section 18 engaging internal thread 34 (see FIG. 2) and a in the internal thread 16 of the Hood part 9 engaging external thread 35. Said Intermediate pipe sections 33 can be different have axial length so that individual clearance heights the top portion of the device V can be achieved.

Overall, a device V is of increased utility value as well advantageous assembly achieved: it is a Exhaust system with integrated fresh air intake before, the central tube 4 a cut polypropylene tube which is smooth walled and different from above simply in the opening Ö of the roof skin 2 in Can insert the area of the roofing panel 8. The can also be done separately from the fan cover 19, for which this then has a hole 29. It is total given a simple structure. The easier assembly lies in the sliding arrangement of the central tube 4 justified to the casing tube 5. The assembly can done gradually. First, the casing tube 5 assembled. An intermediate pipe section can already be used 33 can be inserted. The last thing will be smooth-walled central tube 4 with its socket insertion end 4 '' into the associated sleeve 22 of the subsequent Central tube 23 introduced. An approximately resulting one Excessive protrusion of the central tube 4 over the top the fan cover 19 is simply sawn off.

All disclosed features of this application are essential to the invention. In the disclosure of the application will hereby also the disclosure content of the associated / attached Priority documents (copy of pre-registration) fully included, also for the purpose Features of these documents in claims of this Register now.

Claims (5)

Device (V) for installation in a roof cover Passage of supply air and exhaust air through the roof skin (2) through and for connection to sleeves (22, 31) one building-side double-wall pipeline (3), with a outer, in a downwardly open and on the casing tube (5) attached fan hood (19) opening casing tube (5) and an inner, open top, the Fan cover (19) penetrating and at a distance (A) central tube (4) ending therewith, the jacket tube (5) a passage cap sitting on a roof covering plate (8) (9), which is preferably located on a dome (11) the roof covering plate (8) supports, penetrates, characterized in that the central tube (4) from Mouth end (4 ') to the socket inserting end (4' ') designed in one piece with a constant cross-section and both on the fan hood side and on the casing pipe side is fixed radially. Device according to claim 1 or in particular according thereto, characterized in that the jacket pipe side Radial fixation only in a fan hood (19) and releasably connected to the passage cap (9) Pipe section (18) is provided. Device according to one or more of the preceding Claims or in particular according thereto through at least one between which the fan cover (19) bearing pipe section (18) and the passage cap (9) insertable intermediate pipe section (33). Device according to one or more of the preceding Claims or in particular according thereto, characterized in that that the central tube (4) for assembly by Frictionally axially fixed to the pipe section (18), but is movable. Device according to one or more of the preceding Claims or in particular according thereto, characterized in that that the casing tube (5) with a mounting tube section (30) fixed but swiveling with the passage cap (9) is connected.

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