NL1002144C2 - Flow-through expansion vessel. - Google Patents

Description

Short designation: Flow expansion vessel.

The invention relates to a flow-through expansion vessel comprising a housing with a gas filling opening, two connection nipples arranged in the housing for connection to a pipe system, an essentially cylindrical membrane with end edges which seal around the connection nipples, so that a closed gas space between the housing and the diaphragm and a liquid space within the diaphragm are created, and a flow-through provision to ensure an open liquid connection between the two connecting nipples within the diaphragm, when the pressure in the liquid space is lower than the pressure in the gas space.

Such a flow expansion vessel is known from German "Gebrauchsmuster" G 82 03 569.5. It is used in 15 tap water piping systems with a hot water supply for, for example, kitchen, shower, etc.

The known flow expansion vessel has a flow-through provision in the form of a tube, which is placed inside the membrane between the connection nipples. The function of the tube is to ensure a liquid passage inside the flow expansion vessel from one connection nipple to the other connection nipple when the pressure in the liquid space is lower than the pressure in the gas space of the flow expansion vessel. Without the tube, the membrane closes in that situation, which is undesirable in a tap water pipe system.

The known flow-through expansion vessel has the drawback that it has a relatively large number of parts and its assembly is complicated, which hinders automatic assembly.

The object of the invention is to provide a flow-through expansion vessel which does not have this drawback.

According to the invention, this object is achieved in that the flow-through provision is formed by the membrane.

35 This has the advantage that there are no separate 1002 144.

2 flow-through provision has to be fitted in the flow-through expansion vessel, which reduces the number of parts and makes assembly easier.

The flow-through provision preferably consists of reinforcing ribs extending in the longitudinal direction of the membrane in the membrane, with a substantially U-shaped cross section.

This has the advantage that the membrane is dimensionally stable in the longitudinal direction. This is particularly advantageous for assembling a flow-through expansion vessel according to the invention.

Further preferred embodiments of the flow-through expansion vessel according to the invention are set out in subclaims 2 to 6.

In the following description of a particular embodiment of the flow-through expansion vessel according to the invention, the invention will be further elucidated with reference to the drawing, in which: Fig. 1 is a schematic representation of a tap water pipe system provided with a heating installation and a heating system. flow-through expansion vessel according to the invention; FIG. 2 is a partial longitudinal view of a flow-through expansion vessel according to the invention with the membrane in neutral condition; FIG. 3 is a perspective view of the membrane 25 of the flow-through expansion vessel shown in FIG. 2; Fig. 4 is a cross-section of the membrane in the flow-through expansion vessel along the line III-III in Fig. 2, of the flow-through expansion vessel only the contour of the inside is indicated and Fig. 5 is a cross-section corresponding to that of Fig. 3 the membrane being in the collapsed state.

Fig. 1 schematically shows a tap water pipe system with a supply pipe 1, in which a flow-through expansion vessel 2 according to the invention is mounted. The water is heated using a heating system 3. Hot water can be drawn from a tap 4. A check valve 5 is included in the supply line 1.

10 02144; 3

The flow expansion vessel 2 according to the invention shown in Fig. 2 comprises a substantially two-part housing 6, two connection nipples 7, 8 for connecting the flow expansion vessel 2 to a pipe system 5 and an essentially cylindrical membrane 9. The housing 6 has two seamed upright openings 12, 13 whose centers are coaxial with the longitudinal axis of the housing 6. The seams 12, 13 provided with a seamed upright form such that the 10 nipples 7, 8 herein rotation-free are included. By means of nuts 15, 16 the connection nipples 7, 8 are firmly connected to the housing 6. The membrane 9 is between the connection nipples 7, 8, which are inserted in the openings 12, 13 in the housing 6, and the inside of the enclosure 15 6 clamped. In this way two spaces are created in the flow expansion vessel 2, a gas space 11 and a liquid space 14. In the housing 6, a gas filling opening 10 is provided for filling the gas space 11 with gas.

The connection nipples 7, 8 have substantially radial flanges 17, 18. These flanges 17, 18 are located on the inside of the housing 6, when the connection nipples 7, 8 are inserted in the openings 12, 13. Circumferential grooves 19, 20 are provided on the periphery of the flanges 17, 18 on the sides of the flanges 17, 18 which face the inside of the housing 6. Furthermore, the connection nipples 7, 8 have connection openings 29, 30 whose axes are coaxial with the longitudinal axis of the housing 6, when the connection nipples 7, 8 are fixedly connected to the housing 6.

The membrane 9 is substantially cylindrical with two openings 21, 22 with end edges 27, 28, the axes of which are coaxial with the longitudinal axis of the membrane 9 (see fig.

3). Reinforcing ribs 23, 24, 25, 26 having a substantially U-shaped cross section are preferably arranged on the circumference of the membrane in the longitudinal direction of the membrane. Perpendicular to the longitudinal direction of the reinforcing ribs 23, 24, 25, 26, supporting partitions 31, 32 are arranged to increase the strength of the reinforcing ribs 23, 24, 25, 26. The shape of the 10 02 U 1 4 membrane 9 is such, that it can be made in a self-releasing mold. When mounted, the longitudinal axes of the membrane 9 and the housing 6 coincide.

The flanges 17, 18 of the connection nipples 7, 8 fit into the openings 21, 22 of the membrane 9, with the end edges 27, 28 of the openings falling into the grooves 19, 20 of the connection nipples 7, 8. When the connecting nipples 7, 8 are fixedly connected to the housing 6, the end edges 27, 28 of the openings 21, 22 10 of the membrane between the flanges 17, 18 and the inside of the housing, which are located in the grooves 19, 20, 6 and thereby provide a seal for the gas space 11 of the flow expansion vessel 2.

The assembly of a flow-through expansion vessel 2 according to the invention proceeds as follows: The connecting nipples 7, 8 are placed in the openings 21, 22 of the membrane 9. The presence of the reinforcing ribs 23, 24, 25, 26 in the membrane 9 creates a rigid whole. The two halves of the housing 6 are slid over the connection nipples 7, 8 with their openings 12, 13 provided with a seamed edge. After this, the connection nipples 7, 8 are fixedly connected to the housing 6 by means of the nuts 15, 16 and the two parts of the housing 6 are welded together.

Due to the small number of parts and the simplified assembly method, the operational reliability of the flow expansion vessel 2 according to the invention is great and the assembly can be automated.

The operation of the flow-through expansion vessel 2 according to the invention will be explained below.

30 When the volume of the water in the tap water pipe system changes, for example as a result of heating of the water by the heating system 3, when the tap 4 is closed, the water flows from the heating system 3 to the flow expansion vessel 2. The water flows, for example, via connection opening 29 into the liquid space 14 of the flow-through expansion vessel 2. The non-return valve 5 prevents the water from flowing into the supply line 1, so that the volume increase of the water becomes 10 0 2 '.

5 received by the flow-through expansion vessel 2. The liquid space 14 fills with water and the membrane 9 takes the form as shown in Fig. 3.

By expanding the membrane 9, the volume 5 of the gas space 11 becomes smaller, which results in an increase in pressure in the gas space 11. The membrane 9 will expand until there is a balance between the pressure in the gas space 11 and the pressure in the tap water pipe system. When the tap 4 is opened, water flows from the supply pipe 1 through the flow-through expansion vessel 2 and through the heating system 3 from the tap 4 and the pressure in the tap water pipe system quickly decreases. The gas in the gas space 11 compresses the membrane 9 to the position shown in Fig. 5. The water flows from the supply line 1 through the flow expansion vessel 2 and the heating installation 3 to the tap 4. The U-shaped reinforcing rib ben 23, 24, 25, 26 in the membrane 9 now have the function of flow-through provision. Between the connection openings 29, 30 an open fluid connection is formed by the channels 33, 34, 35, 36 formed by the U-20 reinforcing ribs 23, 24, 25, 26. The water flows mainly through these channels 33, 34, 35 , 36 from the connection opening 30 to the connection opening 29 and then via the heating system 3 to the tap 4.

25 1 0 0 2 <44,

Claims (6)

4 1. Flow-through expansion vessel comprising a housing with a gas filling opening, two connecting nipples arranged in the housing for connection to a pipe system, an essentially 5-cyl diaphragm-shaped diaphragm with end edges which seal around the connection nipples, so that a closed gas space between the housing and the membrane and a liquid space is created inside the membrane, and a flow-through provision to ensure an open liquid connection between the two connection nipples inside the membrane, when the pressure in the liquid space is lower than the pressure in the gas space, with characterized in that the flow-through provision is formed by the membrane (9). 2. Flow-through expansion vessel according to claim 1, characterized in that the flow-through provision comprises reinforcing ribs (23, 24, 25, 26) extending substantially in the longitudinal direction of the membrane in the membrane (9). Flow-through expansion vessel according to claim 2, characterized in that the reinforcing ribs (23, 24, 25, 26) are substantially U-shaped in cross section. Flow-through expansion vessel according to any one of claims 1 to 3, characterized in that each connection nipple (7, 8) inside the housing (6) has a substantially radial flange (17, 18) which is near the periphery of the housing facing side is provided with a circumferential groove (19, 20) for receiving an end edge (27, 28) of the membrane (9). Flow-through expansion vessel according to one of Claims 1 to 4, characterized in that the connecting nipples (7, 8) are rotatably received in openings (12, 13) in the housing (6). Flow expansion vessel according to any one of claims 1 to 5, characterized in that each of the two end edges (27, 28) of the membrane (9) seals between a connection nipple (7, 8) and the inside of the housing (6 ) is clamped. 1 0 0 / <* 4