WO2011063960A1 - Ventilation device for a solid body - Google Patents

Abstract

The invention relates to a ventilation device for a solid body, containing a housing body (4), through which a fluid can flow and which, with the longitudinal axis (20) thereof substantially vertical, is arranged to be connected to the solid body and at the lower end has a pipe connector (10) for connection to the solid body. The ventilation device further comprises a housing cover (6) detachably connected to the housing body (4), wherein a valve having a movable valve body is arranged inside the housing body (4). The aim of the invention is to design the ventilation device for both air admission and air extraction with little effort involved in production and/or with little structural volume. Said aim is achieved in that the housing body (4) contains an inner, substantially horizontally running air admission channel (36) which is connected at least at one side of the housing body (4) to a lateral air-admission opening (22, 23), through which ambient air is able to flow into the air admission channel (36). The valve in the form of an air-admission valve (26) is arranged in the region of an upper edge (38) of the air admission channel (36), and opens by virtue of a negative pressure prevailing in the pipe connector (10). At least one fluid passage (44), through which ambient air flows when the air-admission valve (34) is open is able to flow downward into the pipe connector (10), is disposed in the housing body (4) radially laterally adjacent to the air-admission channel (36).

Description

 Ventilation device for a solid

The invention relates to a ventilation device for a solid according to the features specified in the preamble of claim 1.

Such a ventilation device is known from US Pat. No. 7,013,907 B2, the housing body of which in the use or installation state is connected to a solid body with a substantially vertical longitudinal axis. The solid is designed as a pipe through which a liquid can flow. The ventilation device serves to vent the pipeline and contains an axially movable valve body inside the housing body. If a gaseous medium, for example air, is present in the pipeline, this can flow through the ventilation device and flow out as a result of the valve body normally located in the open position. If, however, a liquid flows through the pipeline, then a part of it passes into the ventilation device in such a way that the valve body floats and the valve closes, thus preventing the liquid from flowing out.

In the case of a large number of fluid-tight volumes-for example, containers or piping systems-it is necessary to perform aeration or venting in a controlled manner at various times, in particular to equalize the pressure

CONFIRMATION COPY to reach. In this case, odor-intensive substances are often present in the solids, so that an odor seal is generally provided in relation to the environment. For this purpose, widespread ventilation devices with valves or filters are used, so that a disturbing spread of odors is reduced or prevented.

Thus, from DE 196 23 053 C2 discloses a fluidly connectable to a sanitation facility ventilation device with gas passageways known which can be arranged in particular within a building. The ventilation device comprises in its housing over the gas passage channels arranged filter elements, in particular activated carbon elements, so that in the sewage disposal device entering or exiting gas flows through the elements, wherein a disturbing odor causing substances are bound by the filter elements. In order to avoid flooding of the filter elements with wastewater, moreover, a check valve arranged upstream of the gas passage channels can also be provided as a check valve. If the overpressure in the sanitation device rises rapidly and sharply, there is a risk that the non-return valve closes, so that no ventilation takes place.

The object of the present invention is to provide a venting device permitting alternate ventilation and venting for a bulk body, in particular a piping system, in which an overpressure or a negative pressure is generated. Another object is to achieve a low back pressure and / or an improved flow and / or an optimized odor binding with low production costs and / or volume.

This object is achieved by a ventilation device for alternately venting and venting with the features of claim 1. Advantageous developments of the invention are characterized in the dependent claims.

A ventilation device according to the invention for the alternate venting and venting of a volume body, comprises a housing which has a pipe socket for fluidic connection with the volume body. The ventilation device further comprises at least one ventilation opening, an inner ventilation channel and a fluid passage, which allow a fluidic connection of the pipe socket to the ventilation opening. Furthermore, a ventilation valve for interrupting the fluid flow through the fluid passage is provided, which is closed by positive pressure in the volume body (with respect to the pressure outside the ventilation device) and opened by negative pressure in the volume body (with respect to the pressure outside the ventilation device). The housing can be a lockable External opening in fluid communication with the pipe socket and the vent valve or the venting device may include a vent valve, which is preferably arranged above the ventilation valve and expediently spaced therefrom and / or which is surrounded by a housing cover or disposed within the same.

The solid can in particular be a tank, a tank, a silo, a pipe, a downpipe, a pipe, a sewer system, a sewer or a building room.

A ventilation of the volume body from the environment by means of the fluidly connected ventilation device according to the invention via the negative pressure in the volume body opening vent valve. Venting of the volume body into the environment is effected by opening the closable outer opening and / or by the vent valve opening as a result of an overpressure in the volume body. According to the invention, therefore, the ventilation functionality and the ventilation functionality are structurally separated from each other, but realized in the same ventilation device, so that an impairment of one functionality is avoided by the other.

In a first group of embodiments of the ventilation device according to the invention, the outer opening may be covered in a fluid-tight manner with a cover element, wherein the cover element is at least partially detachable from the housing for releasing the outer opening. In particular, the lid member may be pivotally mounted on the housing and thus be effective as a vent valve or be removable, the recording is effected for example by a screw, a clamp connection or a plug connection. In addition to the venting according to the invention, the outer opening provided according to the invention can also advantageously serve as an inspection opening with corresponding geometric design in these embodiments. The interior of the ventilation device can be maintained through the outer opening, in particular cleaned. Also, the geometric design of the outer opening may be such that the vent valve is accessible from the outside in a simple manner, so that, for example, optionally existing seals can be changed.

In a second group of embodiments, a filter, in particular an activated carbon filter, for venting can be accommodated in the outer opening, through which gas can escape from the volume body in the event of overpressure in the volume body. In this way can advantageously the disturbing propagation of odors at the opening of the closable Outside opening to be reduced or prevented.

In a particularly advantageous embodiment of the ventilation device according to the invention, a vent valve is arranged between the fluid passage and the filter, preferably activated carbon filter, in particular in the outer opening, wherein the vent valve is opened by positive pressure in the volume and closed by negative pressure in the volume body. In other words, the outer opening can be closed by means of a valve or the closable outer opening is automatically opened at overpressure in the solid and closed at negative pressure in the solid. In this way, both an automatic ventilation and an automatic venting is realized according to the invention.

The design of the venting valve may preferably be such that the venting valve closes when the venting device flooded. In other words, according to the invention, the venting valve can be designed as a double valve such that the venting valve opens due to a compressive force acting from the inside out, but closes due to hydrostatic forces acting on the inside.

In a preferred embodiment of the ventilation device according to the invention, the vent valve may have at least one vent hole and a ball for closing the vent hole. In particular, the vent hole can be closed by allowing the ball to enter a stable equilibrium position in the vent hole due to its weight force, while an overpressure in the volume body causes the ball to lift out of the vent hole against its weight force, causing fluid flow through the vent hole from inside to outside is possible.

In this context, it is particularly advantageous if the ball is designed such that it floats in a liquid located in the volume body, for example sewage, and if the vent valve has a flooding hole through the ball when the fluid passage floats to the vent valve is sealed liquid-tight by floating the liquid of the solid. In particular, the vent hole and the flooding hole may be disposed on opposite sides of a chamber in which the ball is located.

A further group of special embodiments of the ventilation device, which can also be referred to as pipe aerators and / or pipe ventilators and / or ventilators, are substantially identical to the embodiments explained in detail above, and the above explanations also apply to the embodiments. The Ventilation takes place according to the principle of the pipe aerator of the first embodiments, wherein in the case of a negative pressure in the system or in the volume of the pipe aerator or its venting valve opens. In the event of overpressure open the vent valves of these embodiments and these are in function as a breather, wherein discharged air through the connected filter, in particular activated carbon filter, is filtered. The venting unit with the venting valve, in which further preferably the filter is integrated, is plugged in a simple manner on the lower part of the pipe ventilator or the housing body.

Deviating from the first embodiments, according to the other embodiments, the housing cover engages over the filter and expediently also its insert or insert body, which is preferably arranged in a fluid-tight manner at the top of the housing body and in particular plugged. Within the housing cover, the filter and / or the venting unit, as well as the venting valve, are safely protected from external influences. The housing cover surrounding the upper part of the housing body is releasably connected to the base body by means of engaging latching elements and / or locking bodies and, after actuation, in a simple manner from the base body, in particular by rotation and / or removal in the axial direction and / or upwards from the base body removable. In this case, the housing cover is initially rotated relative to the main body about a longitudinal axis in an advantageous manner. After removal, the ventilation device is opened in such a way that the components arranged inside the ventilation device, such as, in particular, wearing parts, the ventilation valve, the filter and the venting device, can be easily accessed and easily cleaned or replaced. The ventilation device according to the invention advantageously allows a rapid and / or reliable dismantling of a pending overpressure. Furthermore, a good ease of maintenance is achieved by the easily removable housing cover in an advantageous manner. In addition, a quick and easy replacement of the ventilation and / or ventilation unit is made possible.

In concrete embodiments of the ventilation device according to the invention, the ventilation valve may be arranged in the ventilation device, that when the ventilation valve is closed, an outer space part to be passed or flowed through by fluid is separated from an inner space part, the outer space part being in fluid communication with the pipe socket and the inner space part , which is formed in particular by a ventilation chamber, are in fluid communication with the ventilation opening. In other words, the fluid passage through the ventilation device may, in certain embodiments, have a curved course such that the flow direction through the ventilation device has different orientations in sections. Particularly preferred is in these Embodiments, when the ventilation valve of the ventilation device comprises a disc with a sealing ring which rests in the closed state on an edge, in particular an upper opening of the inner space part or the ventilation channel.

Furthermore, the filter, in particular activated carbon filter, of the ventilation device according to the invention can be arranged in a container with a fluid-tight side wall, so that the filter is flowed through substantially longitudinally from the gas escaping from the volume body. In this way, a good flow through the filter, in particular a high flow rate at low back pressure is achieved.

Further advantages and advantageous embodiments and developments of the invention will become apparent from the following description with reference to the figures, without being limited in this respect. It shows in detail:

1 shows an embodiment of a ventilation device according to the invention with open outer opening,

2 shows the embodiment of the ventilation device according to the invention according to FIG. 1 with closed outer opening, FIG.

Fig. 3 shows an embodiment of a ventilation device according to the invention with

 attached filter for venting,

4 shows a section of the embodiment of FIG. 3 along section line AA with open ventilation valve, FIG.

5 shows a section of the embodiment of FIG. 3 with the vent valve open, FIG.

Fig. 6 is a section of the embodiment of Fig. 3 in the flooded state

Fig. 7 is a perspective view of a trained as a pipe aerator

 embodiment,

8 is a perspective view of a ventilation device, which is designed for selective ventilation or venting, 9 shows a section of the embodiment of FIG. 8 along section line BB with the vent valve open, FIG.

10 shows a section of the embodiment of FIG. 8 along section line CC with the vent valve open, thus in a sectional plane rotated by 90 ° about the longitudinal axis in comparison with FIG. 9, FIG.

11 is a bottom view in the direction of arrow D of Fig. 10,

12, 13 are perspective views of the embodiment of Fig. 8,

14 is a section corresponding to FIG. 9, but with the vent valve open,

Fig. 15 is a section corresponding to FIG. 9 in the flooded state, wherein by means of

 Bleed valve, the penetration of liquid is blocked in the filter.

Fig. 1 shows an embodiment of the ventilation device according to the invention, which has a housing 2 with a base body or housing body 4 and a housing cover 6. The housing cover 6 is designed as a cap and contains an outer opening 8 at the top, which is open, and is substantially cuboidal, has rounded corners and edges, and a substantially square ceiling surface. Below the outer opening 8, a component of a ventilation valve 34 can be seen. The lower part of the housing body 4 is formed as a pipe socket 10 is substantially tubular. The pipe socket 10 has an annular sealing element 12 and serves for the fluidic connection of the ventilation device with a volume body, not shown in the figures, in particular a sewage pipe. The sealing element 12 encloses the lower end of the pipe socket 10, wherein it engages in a U-shaped manner in the interior of the pipe socket. The upper part of the housing body 4 is surrounded by the housing cover 6, so that an interior of the ventilation device is limited by the housing 12. Housing body 4 and housing cover 6 are detachably connected to each other by means of a connecting device, in particular a latching connection, the catch 14 is disposed on one side surface 16, expediently in the region of the lower edge of the housing cover 6. Another catch is located on the relative to the side surface 16 diametrically opposite other side surface.

The housing cover 6 includes on a further side surface 18, which is offset by 90 ° to the aforementioned side surface 16 with respect to the vertical longitudinal axis 20 of the ventilation device, a ventilation opening 22 in the form of a plurality of longitudinal slots between By the vent opening 22 and expediently by an additional vent on the diametrically opposed fourth side surface ambient air can flow into the interior of the ventilation device, and as explained in more detail below, with open vent valve 34 vertically down through the pipe socket 10 in the inflow the connected volume.

FIG. 2 shows the embodiment of the ventilation device according to FIG. 1 with closed outer opening 8, the same components being provided with the same reference numerals. In the outer opening 8, a lid member 24 is removably received. This embodiment alone allows the ventilation of the volume body. Alternatively, the ceiling element 24 may further be movable, in particular pivotable, connected to the housing cover 6 in such a way that it forms part of a venting valve which opens as a result of overpressure and allows the outflow of a gaseous fluid from a volume body connected via the pipe socket 10.

Fig. 3 shows an embodiment of a ventilation device according to the invention with an attached to the outer opening 8 of the ceiling surface of the housing 2 filter 26 for venting, wherein the components already described with reference to Figures 1 and 2 are provided with the same reference numerals. The filter 26 is designed substantially cylindrical. The side wall 28, here peripheral surface, of the filter 26 is fluid-tight, while the filter cover 30 has lattice-shaped openings, so that the filter 26 can be flowed through axially. The filter 26 is disposed in a cup-shaped insert 32 over the outer opening 8 and in a preferred manner releasably connected to the housing cover 6. Inside the filter 26 is filter material, which in particular contains activated carbon and / or essentially consists of such, which is axially fixed by the filter cover 30. The arrangement above the ceiling surface of the housing 2, the filter 26 is easily accessible, so that easy maintenance or replacement of the filter material is possible.

FIG. 4 shows a section along section line AA of the embodiment of FIG. 3 with the venting valve 34 open. Inside the housing body 4, an inner ventilation duct 36 is arranged, wherein here also the already mentioned further ventilation opening 23 can be seen. The ventilation duct 36 extends in the horizontal direction from the further ventilation opening 23 to the first-mentioned ventilation opening located in front of the plane of the drawing. According to the invention, the ventilation channel 36 extends continuously from the region of the wall 37 of the housing body 4 located behind the plane of the drawing to the area of the wall 37 located in front of the plane of the drawing. Preferably, the ventilation channel 36 is formed integrally with the in particular cylindrical wall 37 of the housing body 4 and / or. or integral part of it. The ventilation channel 36 includes above or in an upper ceiling an opening with a rim 38, which is in particular annular. In the area of the upper edge 38 of the ventilation channel 36, the ventilation valve 34 is arranged, which is shown here in the open position. As indicated by the arrows 40, when the venting valve 34 is open, ambient air first flows vertically upward from the inner horizontal venting channel 36, is directed radially outward in the free space 42 after passing through the venting valve 34, and finally flows through the lateral fluid passages 44 vertically down into an outer space portion 46 which is surrounded by the pipe socket 10, and from there into the connected volume body. The inner continuous ventilation channel 36 is separated from the room part 46 when the ventilation valve 34 is closed. The vent valve 34 contains as a movable valve body, a disc 50, which is arranged to be movable in the vertical direction by means of an axial guide, in particular telescopic rod guide 52. The valve disc is in rest position due to its own weight on the edge of the inner ventilation duct 36, so that when the vent valve 34 is closed, the inner ventilation duct 36 is separated from the free space 42 and room part 46. On the underside of the disc 50 is a sealing ring 54. As a result, the interior of the housing body 4 is fluid-tight by means of the closed ventilation valve 34 in the two space parts 46 and 48 divided. The outer space portion 46 is in fluid communication with the opening of the pipe socket 18. The inner space portion 48 of the ventilation channel 36 is in fluid communication with the ventilation opening 23 and the ventilation opening 22 shown in FIG.

If a negative pressure prevails in the connected volume, the disk 50 is raised against its weight force, so that the ventilation valve 34 opens and ambient air passes through the ventilation openings via the inner space part 48 or the ventilation channel 36 into the outer space part 46 through the fluid passage 44. The flow of the fluid is indicated by the arrows 40. When the negative pressure is balanced by the ambient air, the vent valve 34 automatically closes due to the weight of the disc 50, wherein the sealing ring 54 sealingly rests on the formed as a valve seat upper edge 58. At reduced pressure or balanced pressure, a vent valve, which is located above the ventilation valve, is closed, leaving the venting valve 60 already mentioned leaving the already mentioned free space.

FIG. 5 shows a section of the embodiment of FIG. 4 with the vent valve 60 open, which is arranged on the underside of the cup-shaped insert 32 over the outer opening 8 of the housing 2. A vent 62 is formed by a ball-shaped valve body 40 having a larger diameter than the vent opening 62 in a Chamber 66 closed, which arrives due to their weight in the vent 38 in a stable equilibrium position.

If an overpressure prevails in the connected volume, the ball 60 is raised against its weight, so that the venting valve 60 opens and a fluid, in particular a gas through the fluid passage 44, the free space 42, and the filter 26 to the outside into the environment arrives. The substantially axial flow is indicated by the arrows 68. When the pressure is released by the fluid outlet, the vent valve 60 automatically closes due to the weight of the ball 64, which closes the vent opening 62. At overpressure and balanced pressure while the vent valve 34 is closed.

The filter 26 has a plurality of filter layers 70, which are arranged oriented orthogonally to the longitudinal axis 20 of the ventilation device. These filter layers 70 may preferably be activated carbon filters, for example they may be activated carbon impregnated fibers, nonwovens or fabrics. Finely divided activated carbon causes a fast and effective odor binding.

Fig. 6 is a sectional view of the embodiment of Fig. 3 in the flooded state. In the case of flooding of the outer space part 46 and the fluid passage 24 with a liquid from the solid, such as wastewater, the ventilation device according to the invention is fluid-tight, so that the liquid does not escape. A liquid above the disc 50 of the venting valve 26 exerts an additional force for fluid-tight closing of this valve. Also, the vent valve 60 is fluid-tight: If liquid passes through the vent opening 62 into the chamber 66, the ball 64 floats on the liquid surface until it enters a located in the vent opening 62 side of the chamber 66 flooding hole 72, which has a smaller diameter as the ball 64 has. The hydrostatic force of the liquid causes the fluid-tight closing of the venting valve 60. In this sense, the venting valve 60 is a double valve with opposite locking functions.

Fig. 7 shows an embodiment of the ventilation device, which is designed as a pipe aerator and substantially corresponds to the embodiment of FIG. 2, wherein with the base body 10 of the relatively low longitudinally formed housing cover 6 is detachably connected. The surrounded by the housing cover 6 upper part of the base body 10 includes the vent valve and is consistent with the embodiment, which is explained in more detail with reference to FIG. 8 ff. Thus, preferably, a system for Ventilation devices created in the manner of a kit in a preferred manner, which comprises a uniformly designed body including vent valve, wherein for training as Rohrbelüfter shown in FIG. 7, a lower housing cover 6 is used, while for training as Rohrbelüfter and Rohrentlüfter a high housing cover for use which surrounds the additional venting valve and the filter. For the detachable connection of the respective housing cover, these contain matching connecting elements 76, which correspond with corresponding second connecting elements of the housing body 4 and can be detachably engaged in the connecting device thus formed. The housing cover 6 has a substantially cylindrical outer contour and, as shown, the ventilation opening 22 and diametrically to this the further ventilation opening.

The illustrated in Fig. 8 particular embodiment of the ventilation device according to the invention has the in comparison with the embodiment of FIG. 7 high housing cover 6, which also contains the lateral ventilation opening 22 as well as the diametrically arranged further ventilation opening. As can be seen, this housing cover 6 also has said first connection element 76 and diametrically opposite to this on the not recognizable side surface another first connection element. The upper, substantially circular ceiling surface 78 of the housing cover 6 contains ventilation openings 80 through which the gaseous fluid, in particular air, can flow when the venting valve is open, which is arranged inside the housing cover 6.

FIG. 9 shows a section through the ventilation device along section line BB according to FIG. 8. Components which essentially correspond in function and / or structural design to those of the above-described embodiments are provided with the same reference numerals, differences which are described below being described and, moreover, explicit reference is made to the above statements, which apply analogously. The arranged horizontally in the interior of the housing body 4 ventilation duct 36 has in the upper region of the opening with the upper edge 38 and the vent valve 34, which is shown in the open position of the movable valve body 50 corresponding to FIG. 4, wherein the description of FIG 4 is referenced. On the upper edge 82 of the housing body 4, a venting unit 84 is arranged with the vent valve 60 and / or fixed. Preferably, the venting unit 84 is attached to the upper edge 82 from above, and expediently with the interposition of a particular elastic and / or sealing ring body 86. If the housing cover 6 is removed from the base body 4, the venting unit 84 from the housing body 4 upwards in Direction of the longitudinal axis 20 are lifted and removed, so that the various components arranged on the venting unit 84, in particular the venting valve 60 and the filter 26, can be checked or cleaned or replaced as required. When the ventilation unit is removed, the ventilation valve 34 is furthermore accessible in a simple manner in order to be able to carry out any service measures or an exchange.

With a dashed line, the upper cover surface 78 of the low housing cover of the explained with reference to FIG. 7 embodiment is indicated. This embodiment does not include a venting unit, but below the upper decking surface 78, the low lid is formed as shown in FIG.

The detachable cover 6 also includes, according to FIG. 9, at the lower end region, two expediently diametrically arranged first connecting elements 76, which are in engagement with corresponding second connecting elements 88 of the housing body 4. By pulling out the first connecting elements 76 in the radially outward direction, the connection of the housing cover 6 to the base body 4 is released, which can be lifted off the housing body 4 in particular after a rotation about the longitudinal axis 20.

The venting valve 60 is shown in the closed position, in which the movable valve body 64 closes the venting channel 90 of the venting unit 84 due to tight abutment on a sealing body 92 of the venting unit 84. The approximately hemispherical-shaped valve body 64 is arranged in a preferred manner in the vent passage 90 axially movable and / or performed in this.

The venting unit 84 is further designed to receive the filter 26, which is inserted from above into a receiving opening 94 and thus integrated into the venting unit 84. As can be seen, the filter 26 is defined in the vent unit 84 by means of the upper ceiling 94 of the housing cover 6, wherein furthermore preferably the venting unit 84 is fixed to the upper edge 82 of the housing body 4. According to the invention, the abovementioned components arranged in the interior of the housing cover 6 are fixed at least in the axial direction by means of the housing cover 6 with respect to the housing body 4 and can likewise be removed or removed from the housing body 4 in a simple manner after removal of the housing cover 6. After removing the housing cover 6 from the base body 4 can thus be carried out in a simple manner and without additional measures any service work on the various now exposed components or their replacement may be made. FIG. 10 shows, on a reduced scale, a section through the embodiment according to FIG. 8 along section line CC. In this case, ribs of the two diametrical ventilation openings 22, 23 are shown cut. The radially continuous inner ventilation channel 36 is an integral part of the base body 4, wherein the already explained ceiling 96 with the upper preferably annular edge 38 of the ventilation channel 36 and also its likewise continuous bottom 98 are clearly visible.

FIG. 11 shows a view from below in the viewing direction D according to FIG. 10 of the ventilation device. On both sides of the bottom 98 are the fluid passages 44 through which ambient air can flow down through the pipe socket in the connected volume with the vent valve open. Due to the fluid passages 44 present laterally next to the ventilation duct, a low material outlay and / or a low construction volume are preferably achieved.

12 and 13 show perspective views of the ventilation device, wherein, according to FIG. 12, the first connecting elements 76 are pulled radially outwards in such a way that they no longer engage with the associated second connecting elements and the housing cover in the direction of the arrow 100 about the longitudinal axis 20 can be turned. Subsequently, the cover 6 is lifted in the direction of arrow 02 from the base body 4 and thus can be completely removed from the base body 4. As can also be seen from FIG. 13, the horizontal ventilation channel 36 completely penetrates the housing body 4, which has the preferably substantially cylindrical wall 37. In the interior of the ventilation channel 36, the telescopic guide 52 of the ventilation valve can be partially recognized. The housing body 4 or its wall 37 has the second connection body 88, which is only schematically indicated here. The arranged on the upper edge 82 of the housing body 4 venting unit 84 can be partially seen.

Fig. 14 shows a section corresponding to Fig. 9, but with the venting valve 34 closed while the venting valve 60 is open. So it is the venting state shown. As a result of an overpressure in the connected volume of the valve body 64 is raised axially upwards in the vent channel 90 and lifted off the seal body 92 such that the gaseous fluid flow through the vent passage 90 and finally can flow through the filter 26 and the vent openings 80 to the outside, creating a Pressure reduction and ultimately a pressure compensation is achieved. As soon as the overpressure has been reduced and a pressure equalization has been achieved, the valve body 94 moves axially downward, as shown in FIG. 9, the venting channel 90 being sealed is closed. Now, the ventilation device is in the so-called idle state, in which both the vent valve 34 and the vent valve 60 are closed.

FIG. 15 shows the ventilation device in the flooded state in analogy to the embodiment explained with reference to FIG. 6. As a result of bottom of the pipe socket 10 and the outer space portion 46 in the interior of the housing body 4 and further up into the area of the vent unit 84 penetrating liquid fluid, the valve body 64 floats to the upper end of the vent passage 90, wherein the valve body 64th at a sealing surface 104 for conditioning so arrives that the liquid medium does not reach further up and can escape from the ventilation device. The sealing surface 104 is formed corresponding to the outer contour of the valve body 64 for the purpose of secure sealing. The fluid present in the free space 42 causes an additional sealing force on the venting valve or its valve body arranged therebelow.

The illustrated embodiments have the same features as illustrated and illustrated in the drawings as described above. It should be expressly stated that the individual features of the respective embodiment can be combined according to the invention with at least one other individual feature of another embodiment. Such combinations of individual features of different embodiments are the subject of the present invention.

LIST OF REFERENCE NUMBERS

 Housing 66 chamber

 Housing body 68 arrow

 Housing cover 70 filter layer

 Outer opening 72 flooding hole

 Pipe socket 76 first connection element

Sealing element 78 upper ceiling surface

 Notch / locking element / 80 vent

connecting device

 82 upper edge of 4

 Side surface of 6 84 Venting unit further side surface of 6 86 ring bodies

Longitudinal axis 88 second connecting element ventilation opening 90 venting channel

Cover element 92 sealing body

Filter 94 ceiling of 6

 Sidewall 96 Ceiling of 36

Filter cover 98 bottom of 36

cup-shaped insert 100 arrow

Ventilation valve 102 arrow

Inner ventilation duct 104 sealing surface

Wall of 4

upper edge of 36

arrow

blank

fluid passage

outer part of the room in 10

 inner part of the room in 36

 Disc / movable valve body of 34

telescopic guide

 sealing ring

 Side wall

 vent valve

 vent

 Valve body / ball of 60

Claims

1. Ventilation device for a solid body, comprising a flow-through housing by a fluid body (4), which is arranged substantially vertically longitudinal axis (20) connected to the volume body and at the lower end a pipe socket (10) for connection to the solid body, further comprising a housing cover (6) which is detachably connected to the housing body (4), wherein a valve with a movable valve body is arranged in the interior of the housing body (4),

characterized in that the housing body (4) includes an inner substantially horizontally extending ventilation duct (36) which communicates with at least one side of the housing body (4) with a lateral ventilation opening (22, 23) through which ambient air into the ventilation duct (36) can flow in that in the region of an upper edge (38) of the ventilation duct (36) designed as a vent valve (26) valve is arranged, which opens by a in the pipe socket (10) prevailing negative pressure, and that radially laterally adjacent to the ventilation duct (36) at least one fluid passage (44) in the housing body (4) is arranged, through which with open ventilation valve (34) flowing through ambient air can flow down into the pipe socket (10).

2. Ventilation device according to claim 1, characterized in that the upper edge 38 of the ventilation duct (36) is designed as a valve seat of the ventilation valve (34) and / or that axially above the ventilation valve (34) a free space (42) is present which, with the ventilation valve (34) open, ambient air can flow substantially radially outward into the fluid passage (44).

3. Ventilation device according to claim 1 or 2, characterized in that the horizontally extending inner ventilation channel (36) penetrates the housing body (4) and ends in diametrical areas of the preferably cylindrical wall (37) of the housing (4), wherein with respect to the longitudinal axis (20) offset by substantially 90 ° and laterally the ventilation duct (36) is then provided in each case one of said fluid passages (44).

4. Ventilation device according to one of claims 1 to 3, characterized in that the ventilation channel (36) formed integrally with the housing body (4) and / or an integral part of the housing body (4).

5. Ventilation device according to one of claims 1 to 4, characterized in that the upper part of the housing body (4) with the ventilation duct (36) and the ventilation valve (34) from the housing cover (6) is surrounded and that the lower part of the housing body ( 4), namely substantially the pipe socket (10), is exposed, on which preferably a sealing element (12) is arranged.

6. Ventilation device according to one of claims 1 to 5, characterized in that axially above the vent valve (34) and spaced therefrom, leaving a free space (42), a Endlüftungsventil (60) is arranged.

7. Ventilation device according to claim 6, characterized in that axially above the vent valve (60), a filter (26) is arranged, through which when the vent valve (60) gaseous fluid can flow substantially axially or upwardly.

8. Ventilation device according to claim 6 or 7, characterized in that the vent valve (60) and preferably further the filter (26) arranged in a venting unit (84) and / or integrated in this, wherein the aforementioned components preferably within the housing cover ( 6) are arranged, and / or that in particular the ventilation unit (34) from the housing body (4) is arranged detachably on this.

9. Ventilation device according to one of claims 1 to 8, characterized in that by means of the housing cover (6) the vent valve (34) and preferably further inside the housing cover arranged components with respect to the housing body (4) are fixed, in particular in the axial direction and that preferably such that after removal of the housing cover (6) releasably connected to the housing body (4), at least the ventilation valve (34) is freely accessible.

10. Ventilation device according to one of claims 1 to 9, characterized in that the housing cover (6) by means of a latching or connecting device (14, 76, 88) releasably connected to the housing body (4).

1 1. Ventilation device according to one of claims 8 to 10, characterized in that the venting unit (34) on the upper edge (82) of the housing body is arranged and preferably on the upper edge (82) is plugged and / or in the axial direction of Housing body (4) is removable.

12. Ventilation device according to one of claims 1 to 1 1, characterized in that the vent valve (60) is designed such that upon flooding of the ventilation device, the vent valve (60) closes, and / or flooding a flooding hole (72) or a Venting channel (90), which is arranged in particular in the venting unit (4), are liquid-tightly closed by means of the valve body by a liquid fluid by floating.

13. Ventilation device according to one of claims 1 to 12, characterized in that the housing cover in its upper ceiling (78, 94) has ventilation openings (80).