DE9318983U1 - Container assembly - Google Patents

Description

The invention relates to a container assembly for compressed air preparation modules, with an inner container made of plastic and an outer container.

It is known to use so-called compressed air preparation modules in almost every type of compressed air application. These are pressure regulators, filters, lubricators and the like. Such compressed air preparation modules are usually combined to form so-called filtration units. The incoming compressed air is treated in the filtration units and is available at the outlet in the desired application state. Some of the compressed air preparation modules include so-called container assemblies. These container assemblies are used to hold media that are to be added to the air, for example in the case of compressed air lubricators, or the media separated from the compressed air, as is the case with compressed air filters.

Up to now, container assemblies have been used in practice that include a container that absorbs the internal pressure and allows a view into the inside of the container at least at one point. Pressure-resistant containers made of glass or pressure-resistant, transparent plastic are usually used. It is also known to protect these containers against mechanical damage by means of external containers.

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from external influences. For example, basket-like metal outer containers are pushed over the actual pressure vessel to protect the pressure vessel against mechanical influences from the outside - and also to serve as a splinter guard in the event that the vessel is damaged - and bursts under pressure. Since the inner container is subject to pressure ^, the outer container is pushed over the inner container in such ^a way that there is a gap between the two. This simplifies assembly and tolerances do not have to be too tight. ''''■■■'"''">' ■ ·■■··■■■

A disadvantage of conventional container assemblies is that the manufacture of the pressure-resistant inner containers, especially those made of plastic, is very complex and the containers only have a comparatively short service life due to plastic aging and embrittlement due to a lack of chemical resistance. Many chemicals shipped in the container assemblies contain alcoholic solvents, which contribute to plastic embrittlement, and the plastic is usually exposed to high temperatures. This embrittlement easily leads to container explosions, the effects of which are limited by splinter protection baskets in the form of outer containers, but result in the maintenance unit or compressed air preparation module not functioning properly.

A further disadvantage is that appropriate fastening devices must be provided on the module for two different containers. In practice, it is therefore common to attach the protective container to the inner container, which can significantly impair the protective effect of the outer container in the event of damage.

Based on this, the invention is based on the task of improving a container assembly for compressed air preparation modules of the generic type in such a way that the

wall for the production of pressure-bearing plastic containers is eliminated, the attachment of the container assembly to the module is simplified and, the pressure and chemical resistance of the container assembly is improved.wire};

The technical solution to this problem is characterized in that in a generic container assembly the outer container _is a container which is closed except for at least one window opening and which absorbs the pressures occurring inside, into which the plastic inner container is inserted with a press fit.

The container assembly according to the invention only has a thin-walled plastic inner container, which cannot absorb the internal pressures when used alone. This thin-walled plastic inner container is inserted into an outer container with a press fit, which absorbs the pressures and creates at least one window opening. According to one suggestion of the invention, this outer container is made of metal, according to an alternative suggestion, of a plastic. For example, fiber-plastics can also be used. The inner container is only subjected to pressure in the area of the window openings of the outer container. Due to the small opening area, the container, whose outer surface otherwise rests completely against the inner wall of the outer container, can withstand the pressures in this area.

The container assembly according to the invention is easier to manufacture and easier to attach to the module. The thin-walled inner container made of plastic is easier to manufacture than a pressure-bearing, thick-walled individual container. The outer container made of metal or plastic, which does not have to be transparent, can also be manufactured more easily from corresponding materials. After assembly , the container assembly only needs to be

with a fastening device on the module.

It is advantageously proposed that projections are arranged on the outer wall of the inner container, which can be inserted in a form-fitting manner into grooves which are formed on the inner wall of the outer container. This allows the inner container to be inserted in a rotationally fixed manner relative to the outer container ^; the outlet openings are made on both the inner and outer container; the inner container also lines the outer container in the area of the outlet openings. In order to fix the inner container vertically to the outer container, it is advantageously proposed to arrange a locking device in the area of the upper edge.

If you work with chemicals at high temperatures, it is advantageous to insert a transparent reinforcing plate in the area of the window openings of the outer container between the inner container and the outer container. This is advantageously a pane of glass. According to one suggestion of the invention, there is a groove in the outer end of the inner container in the area in which the outer container has its window opening. The reinforcing plate can advantageously be inserted into this groove.

The container assembly according to the invention is simpler in terms of manufacture and assembly and has a longer service life, since the chemical resistance is significantly improved even at high temperatures. Embitterment does not occur in the practically non-pressurized inner container. In addition, the pressure-bearing structure is completed by using the reinforcement plate in window openings of the otherwise pressurized outer container, so that the inner container cannot explode even under high thermal and chemical stress.

Further advantages and features of the invention will become apparent from the following description based on the figures.

Figure 1 is a schematic front view of 'a

Maintenance unitj :;■"' ■'' ■■ · ■'·:::-;":';..;

Figure 2 . - _■.a sectional view -throughy^.fine.'^container-'

assembly and . ^: ..■.··'.- ',·:.- 7■;:.: ·.

Figure 3 is a sectional view through the container assembly according to Figure 2 at the location &Idigr;&Pgr;/&Igr;&Idigr;&Idigr;,

The maintenance unit 1 shown in Figure 1 comprises, for example, a filter module 2a, a regulator module 2b and an oiler module 2c. Connecting flanges 3 for the compressed air lines are arranged at the ends. The modules are connected to one another in the area of their connecting ends 4. The filter module 2a and the oiler module 2c have a container assembly 5, whereby in the case of the filter module 2a an outlet 6 is arranged on the lower container surface.

The design of the container assembly according to the invention is shown in Figures 2 and 3. A thin-walled, non-pressure-bearing inner container 8 made of transparent plastic is press-fitted into a pressure-bearing outer container 7. As can be seen from Figure 3, the inner container 8 has projections 9 on the outer wall, which can be inserted in a form-fitting manner into grooves 10 in the outer container 7. A projection 11 of the inner container 8 is provided with a cap into which a disk 12 can be inserted. This area of the inner container 7 is arranged in the area of the window opening 13 of the outer container 7. The disk 12 is mounted against the internal pressure at its edges on the edges of the outer container 7 forming the window opening 13.

The outlet opening IA of the inner container lines the outlet opening 15 of the outer container so that in practical use the outer container does not come into contact with the chemicals. ' . . y ., "_&Ggr;&lgr;' : &ngr;:'\":' .r ^: . ^::

To the inner container 7 vertically~relatively

fix _t is' in the upper ' area &ngr;&idiagr;&eacgr;&idiagr;&eegr;

held support ring “16 inserted, /where ; öie ^

by ^means of a sliding cover 18 attached to the container.

While the inherently non-pressure-bearing plastic inner container 8 is chemically resistant even at high temperatures, embrittlement due to stress cannot occur, since all compressive forces are absorbed by the outer container 7.

List of reference symbols

1 maintenance unit

2a Filters : :

2b Controller

:2c -''biet/K-.\-f.,'..-■■.., '.·■

3 Connection flange

4 connecting walls

5 Container assembly

6 Outlet

7 External containers

8 inner containers

9 Advance

10 grooves

11 Projection with disc groove

12 disc

13 Window opening

14 Outlet opening: inner container

15 Outlet opening outer container 15 Support ring

17 locking lug

18 Screw

Claims (9)

Expectations 1. Container assembly for compressed air preparation modules, ■:.·■ ·; with an inner container made of plastic and an outer container, characterized in that the outer container (7) has a closed container with at least one window opening (13) for absorbing the pressures occurring inside, into which the inner container (8) is inserted with a press fit.*- 2. Container assembly according to claim 1, characterized in that the outer container (7) consists of metal. 3. Assembly according to claim 1*, characterized in that the outer container (7) consists of plastic. 4. Container assembly according to one of the preceding claims, characterized in that projections (9) are formed on the outer wall of the inner container (8) which can be inserted in a form-fitting manner into grooves (10) which are formed on the inner wall of the outer container (7). 5. Container assembly according to one of the preceding claims, characterized in that the outlet openings (15) of the outer container (7) are lined by the outlet openings (14) of the inner container (8). 6. Container assembly according to one of the preceding claims, characterized in that a locking device (17) is arranged on the upper edge of the container. 7. Container assembly according to one of the preceding claims, characterized in that in the region of the window opening (13) in the outer container (7) between the inner container (8) and the outer container (7) a transparent reinforcing disk (12) is inserted. -si &Ggr;: &Igr; :.· 8. Container assembly according to claim 7, characterized in that the reinforcing disc (12) consists of glass. 9. Container assembly according to one of claims 7 or 8, characterized in that on the outer wall of the inner container (8) in the area of the window opening (13). '■■·-<7) a ^Nüt^ör ^the :ystrengthen|ing sheath^ (12) _} is formed. ·;■ ■';...-·.;;-;:>:>,■■·.'- ■ ^: ^;^4:.'-. ^;;: - ^: ·";>:'--·■■■'-Ml·-'^^ ^: -"^;'^C""^"--'5 ^: ^> ^: - -■ &iacgr;&ogr; -