DE202006007789U1 - Exhaust and ventilation automat e.g. for small units and systems has guide pin is connected with screw plug for controlling valve opening closing mechanism of membrane components and floats - Google Patents

Abstract

An exhaust and ventilation automat has a membrane technology. A guide pin is connected with the screw plug (11) for controlling the valve opening and the closing mechanism of the membrane components and the floats. The automat is provided over the valve floats, membrane components and membrane.

Description

The The present invention relates to a ventilation and vending machine with membrane technology, especially for ventilation Systems and systems for gas / liquid equalization of Pressure / temperature differences between two rooms, especially for valves of heating systems, after main patent, patent application DE 10 2006 015 263.8. Special designs of the invention are in the dependent claims claimed.

ventilation machines find everywhere application where media in closed systems and systems, containers Boilers, storage or pipelines are subject to thermals and Pressure equalization must take place. Known applications are compressed air systems, water-bearing systems, Fuel systems and containers, closed systems in traffic engineering. Often, air valves are for liquids as float valves with locking mechanism pronounced.

• – Standhalten der Druckprüfung bis ca. 10 bar
• – Helfen beim Befüll- und Entleerungsvorgang, ca. 3 bar
• – Sicherstellen der Automatikentlüftung, ca. 3 bar.

In the more specific application of the hot-water service and heating system, the ventilation and vending machines take over essentially three functions / operating modes

• - Withstand the pressure test until approx. 10 bar
• - Help with the filling and emptying process, approx. 3 bar
• - Ensure automatic ventilation, approx. 3 bar.

The Membrane technology is still a young technology, but is subject because of almost unlimited possibilities of permanent renewal. The use of membranes takes place in a wide variety of disciplines technology, such as medicine / dialysis, beverage industry / filtering and Alcohol withdrawal, service water / cleaning and filtration, traffic engineering / cavity ventilation, etc. Membranes are produced as semi-permeable films and their purpose is determined by different product parameters; they hold high Fluid pressures stood, but are permeable for gaseous media. The membrane material is plastic, e.g. polytetrafluoroethylene (PTFE) or polypropylene (PP), is oleophobic and / or hydrophobic, Chemically compatible, suitable for sterilization, not wettable at smallest surface tensions.

According to the parent application DE 10 2006 015 263.8, the prior art relates to and bleed valves honored the type described above. According to the prior art, depending on the application, a variety of types of air valves known. Ventilation for hydraulic systems and fuel tanks were essentially not considered.

All featured publications are suitable only partially or not at all as a simple air valve with membrane for the intended application.

The Main application DE 10 2006 015 263.8 discloses a ventilation valve simple design with semipermeable membrane, which the functions / modes Pressure Check fill and draining and automatic venting Fulfills. The valve consists essentially of a cylindrical arrangement and gets along without moving parts. The membrane element provides that Link between the liquid-filled interior - the heating system - and the outer space is, wherein in the interior due to changing temperatures and / or pressures Can form gases, which adversely affect the operation and operation of the system. Depending on the structure, semi-permeable membranes hold back liquids - or are for this impermeable - and let gaseous Media escape.

Of the Disadvantage of the above air valve simple design with semipermeable membrane and without moving Parts results in quick bleeding during filling or of loading and unloading while emptying. For this purpose, the simple air valve is off his valve seat solved so far, until the previously sealed through-hole in the connecting threaded pin outside is visible and the gases can escape or air are sucked can. However, subsequent water is not retained and its exit can only be prevented by manual closing.

Of the The present invention is therefore based on the object, a Automatic ventilation system for gas / liquid equalization of pressure / temperature differences between the interior of a Plant - in particular a heating system - and an outdoor area to create, which is versatile, structurally free formable, manufacturing technology preferably is easy to produce and ensures high reliability.

These The object is achieved by a Automatic ventilation system of the type mentioned above with the features given in claim 1 solved. Advantageous embodiments show the figures and take the dependent claims.

The automatic ventilation unit has an additional float valve device, in contrast to the simple ventilation and venting valve, which has no moving parts. The through hole in the threaded stem of loading and Air vent valve is moved in the ventilation and vending machine to above the float valve device and can be opened or closed by turning the cap of the venting machine. A cap in the fastened, passing through the membrane passing - this, however, tight closing - guide pin also acts by the rotational movement of the float mounted in the lower part of the machine float valve.

The Detailed operation of the automatic ventilation system is based on the figures in detail explained.

Of the Automatic ventilation system can be pronounced as a passage or as an angle valve. Furthermore, the embodiments with flat membrane / membrane disc or tube membrane or another shaped, multi-dimensional membrane possible.

The geometric shapes of membranes - even or spatial - can be diverse. The pressure test requires stable mechanical conditions; Therefore, it is proposed that the automatic vending machine at high pressures preferably with equip a tube membrane. This membrane has the design of a Hollow cylinder, which for the sake of stability, in addition to a porous one Coating or filling equips can be. gaseous Medium is thus through the side wall of the tube membrane - if necessary. also by porous coatings - led and over the - if necessary. also filled - inner cylinder in the outside space directed.

The achieved with the invention advantages - in addition to the avoidance of Gases of gaseous Media in liquid-containing Containers - in the Simplicity of construction, in the minimum spatial and weight dimensions and in the handling of assembly and installation of the component, including Maintenance.

preferred embodiments of the subject invention are shown in the figures and become closer in the following explains; while further features of the invention are disclosed. Show it

1 Automatic ventilation unit as a through-valve in top, side and perspective view

2 Automatic ventilation unit as a through-valve with membrane disc, disassembled, in side and perspective view

3 Automatic ventilation unit as a through-valve with membrane disc, partially cut, in side and perspective view, in the normal operation state

4 Automatic ventilation and venting system as angle valve in top, side and perspective view

5 Automatic vents as corner valve with membrane disc, disassembled, in side and perspective view

6 Automatic ventilation and venting system as corner valve with membrane disc, partially cut, in side and perspective view, in the normal operation state

7 Functioning of the automatic ventilation system as angle valve with diaphragm disc, half, in sectional view.

Same and equivalent components of the embodiments are in the Figures always provided with the same reference numerals.

The Description of the device according to the invention and its operation will continue based on the explanations the figures.

How out 1 it can be seen, the automatic vending and venting as a through valve consists essentially of three parts, the upper part 1 , the middle parts 2 and 4 and the lower part 3 respectively. 5 ,

2 shows the automatic ventilation machine as a through-valve with membrane disc, disassembled, in side and perspective view.

The upper part forms a screw cap provided with openings and external thread 11 which also establishes the connection to the exterior. Recordings 12 allow positioning for the membrane holder, consisting of guide pin 13 with sealing and spring ring 14 ,

The middle part consists of a sandwich consisting of a support and guide part 26 , a membrane disc 25 and again a support and guide part 26 together; the parts can also be prefabricated as an assembly. The assembly can also be to the lower part with a sealing ring 24 be completed.

When using the tube membrane comes a sandwich consisting of perforated disc 21 , Tube membrane 22 and recording ring 23 for use (not shown).

The adjoining float assembly 4 consists of the float valve body 41 and the swimmer 42 ,

The lower part, connecting plug 31 , forms with its external thread 34 the connection to the container, such as a radiator, has an internal thread 35 for receiving the upper part 1 and an inner receptacle for the membrane assembly 2 , The membrane assembly must be sealingly joined in the lower part and is pressed by means of the screw cap and can be performed by means of rotational movement of the screw cap on the guide pin with sealing and spring ring. The through hole 32 serves the quick exhaust. The lower part is still a carrier of an O-ring 33 for the purpose of sealing to the container. The connecting plug is provided with a hexagon, alternatively, a flattened on two sides cylinder for receiving the wrench or a visually appealing knurling is possible.

Of the Way of escaping gases - in the automatic bleeding mode - from the container is designed as follows: container - lower part, inside - float valve body - float - guide pin with Sealing and spring ring - support and guide part - membrane disc - support and guide part - screw cap, Breakthroughs. The same applies when equipped with a tube membrane.

According to the expected flow rate, the relevant parts are to be dimensioned. The membrane assembly should also be designed so that they predetermined pressure test the plant withstands. The membrane disc receives supportive Support and guide parts. Furthermore, it is also possible the membrane disc for consolidation with another hydrophobic porous To overmold, e.g. with hydrophobic porous polystyrene.

In the operating mode filling and emptying the membrane assembly as far as the lower part solved, until the in the connection plug visible through-hole acts as quick-and-ventilation.

In 3 , Automatic ventilation with membrane disc, partially cut, in side view, the assembly of the individual parts and assemblies can be clearly. In the perspective view of the seat of the membrane assembly is highlighted. In addition, the representation of the partial section of the principle of action of the float assembly makes clear (is recessed in a later figure). In addition, the course of the flow lines can be very well identified here.

As shown above contains the screw cap a receptacle for the holder of the guide pin with a sealing and spring washer for the membrane assembly; this is the same above the sealing and Positioned spring ring. In addition to the leadership and positioning of the Membrane assembly brings this arrangement advantages in interchangeable inserts Assembly for maintenance tasks.

4 shows the automatic vents in corner valve design in plan, side and perspective view, the assembly shell screw cap 11 represents a reusable part. The lower part of this design consists of the connection plug 51 , which in its cavity the internal thread 55 carries, a through hole 52 for quick exhaust and has a connecting pin with external thread 54 has, provided with an O-ring 53 , The outside space, eg a radiator, is above the connection hole 56 connected to the machine.

The automatic ventilation system as corner valve with membrane disc, disassembled, shows in side and perspective view 5 , The construction of screw cap, membrane and float assembly corresponds to the representation and description of the machine as a through valve.

6 shows the automatic vents in corner valve version with membrane disc, partially cut, in side and perspective view. These representations make clear the structure and mode of operation of the machine. Also, in the perspective of the detail membrane assembly, positioning and Füh tion of the same, clearly visible. The operation of the float assembly can also be clearly understood. The course of the flow field is shown here clarifying.

Of the Way of escaping gases - in the automatic bleeding mode - from the container Corresponds to the representation of the automatic ventilation valve in through-valve design. The same applies when equipped with a tube membrane.

According to the expected flow rate, the relevant parts are to be dimensioned. The membrane assembly should also be designed so that they predetermined pressure test the plant withstands.

7 describes the functioning of the ventilation and venting machine as an angle valve with membrane disk, half, in section; Three different operating states, Figure 1 ... 3, are shown.

Figure 1 shows the operating state 'venting':
Float valve open and quick exhaust open.

In this condition, the screw cap is unscrewed upwards, whereby the passage Hole for the quick exhaust through which also upwards - by means of the guide pin with sealing and spring ring - moved membrane assembly is released. Furthermore, the float of the float assembly is relieved; the float is due to gravity down in the float valve body. Accumulated gases can escape from the container.

Figure 2 also shows the operating state 'venting' - but after degassing - clearly:
Float valve closed and quick exhaust open.

By The water pressure from inside the float is sealing against the Upper edge of the float valve body pressed. The through hole of the quick exhaust is still open, however, in this state, neither a gas nor a water outlet from the container possible.

Figure 3 shows the status 'normal operation':
Float valve open and quick vent closed.

• – einerseits die Membranbaugruppe die Durchgangsbohrung der Schnellentlüftung über den Führungsstift mit Dicht- und Federring dichtend verschließt und
• – anderseits der Schwimmer der Schwimmerbaugruppe über den Führungsstift so nach unten gedrückt wird, daß das Schwimmerventil geöffnet ist, der Wasserdruck des Behältnisses auf der Membranbaugruppe ruht und in der Flüssigkeit enthaltene Gase über die Membranscheibe bzw. Rohrmembran entweichen.

In this mode, the screw cap is screwed tight, thereby

• - On the one hand, the membrane assembly seals the through hole of the quick exhaust through the guide pin with sealing and locking ring sealing and
• - On the other hand, the float of the float assembly is pushed down over the guide pin so that the float valve is opened, the water pressure of the container rests on the membrane assembly and gases contained in the liquid escape through the membrane disc or tube membrane.

A further embodiment of the invention provides that the and venting machine is based on the standard series of such components. The intended Metric standard thread may be used as a replacement / supplemental part for reasons of use also be a non-metric thread.

A further form of expression the inventive novelty is given by the fact that the screw cap to the locking cap, in which the screw thread replaced by locking lugs will - with appropriate Arrangements in the lower part - and the seal over another sealing ring takes place.

According to one Another embodiment of the invention, the semipermeable diaphragm valve has different Porosity / passage numbers on and is for different substances effective.

A further advantageous form The invention is given by the fact that the automatic ventilation is not subject to any installation instructions regarding its installation.

According to one Another embodiment of the invention, the automatic ventilation cost-effective with membrane assembly produced in series; Individual parts or assemblies of the machine are reusable within typing.

A outer sheath and / or an interior filling the disc / tube membrane with a hydrophobic porous material, such as. Polystyrene, increased the pressure resistance of the membrane structure and prevents moisture accumulation.

advantageous Further developments of the invention are the subject of the dependent claims. The numerous possibilities and advantages of the embodiment of the invention are reflected in the Number of property rights claims contrary.

1

top

11

screw cap

12

admission

13

guide pin

14

sealants and spring washer

15

external thread

2

Centerbody / diaphragm assembly

21

perforated disc (not shown)

22

tube membrane (not shown)

23

receiving ring (not shown)

24

seal (not shown)

25

membrane disc

26

supporting and leadership part

3

lower part Through valve

31

connecting stopper

32

Through Hole

33

O-ring

34

external thread

35

inner thread

4

Centerbody / float assembly

41

Float valve body

42

swimmer

5

lower part angle valve

51

connecting stopper

52

Through Hole

53

O-ring

54

external thread

55

inner thread

56

connecting bore

Claims (12)

The present invention relates to a ventilation and venting machine with membrane technology in particular special for the ventilation of small systems and systems for gas / liquid equalization of pressure / temperature differences between two rooms, especially for valves of heating systems, according to the main patent patent application no. DE 10 2006 015 263.8, characterized in that one connected to the screw cap Guide pin controls the valve opening and closing members of membrane assembly and floats. Automatic ventilation system according to claim 1, characterized in that the machine via the valves Float, membrane assembly and membrane features. Automatic ventilation system according to at least one of the claims 1 and 2, characterized in that the valve controls of Adapted design of the machine are. Automatic ventilation system according to at least one of the claims 1 to 3, characterized in that in normal operation of the pressure equalization over the Diaphragm valve and the open Float valve is done. Automatic ventilation system according to at least one of the claims 1 to 4, characterized in that a rotation of the screw cap a quick exhaust allows. Automatic ventilation system according to at least one of the claims 1 to 5, characterized in that a guided over the screw cap float valve the discharge of liquid prevented. Automatic ventilation system according to at least one of the claims 1 to 6, characterized in that the structure of the valves float, Membrane assembly and membrane according to the intended use of the machine different pronounced can be. Automatic ventilation system according to at least one of the claims 1 to 7, characterized in that for the diaphragm valve different, adapted to the valve chamber of the machine geometries and shapes - as well a tube membrane - are possible. Automatic ventilation system according to at least one of the claims 1 to 8, characterized in that the shape of the valves Characteristics subject. Automatic ventilation system according to at least one of the claims 1 to 9, characterized in that the valve controls mechanically independently are designed by the screw cap and the cap attachment through Rest takes place. Automatic ventilation system according to at least one of the claims 1 to 10, characterized in that the dimensions of the valve openings the volume flows and the viscosity adapted to the media are. Automatic ventilation system according to at least one of the claims 1 to 11, characterized in that the membrane assembly due to printing technology Specifications a reinforcement / stiffening through porous Experiences materials.