DE2107605A1 - Method and apparatus for Be agree the permeability of objects, in particular tubes or plates, made of porous material - Google Patents

Description

PATENT LAWYERS 2107608 DR ₁ -INO ₁ RICHARDGLAWe · DlPL-ING. KLAUS DELFS - DIPL-PHyS. DR. WALTER MOLL

MÖNSHIN HAMBUR © MUNICH

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The method according to the invention consists in that one area of the surface of the object all around airtight encloses, applies a negative pressure to the enclosed area and that of the permeability of the object measures dependent time within which the negative pressure by reddening through the object through has accepted a certain amount.

According to the invention, a device for carrying out the method comprises a suction head for attachment to the surface of the object, for example a pipe, sealing means
for producing an airtight seal between the suction head and the surfaces for airtightly enclosing a surface area, a device for generating a negative pressure inside the suction head and a measuring and display device for displaying changes in the negative pressure caused by air diffusion through the wall of the object be effected.

In a preferred embodiment of the invention, a Yakuii line coming from the suction head is controlled by valve valves and switches. Changes in the suppression of air through, the llaehströtuea of air through, the
Whatever the Segeastanäes are caused in the suction head »are indicated by visual and / or audible means.

- 2 109836/0983

One embodiment of the invention is described below explained in more detail with reference to the drawings.

Pig. 1 shows a view of the inside of a suction head.

Fig. 2 is a cross section through part of a clay pipe with the attached suction head.

Fig. 3 shows a schematic representation of the entire μ device.

According to Pig. 1 and 2 "the suction head consists of a molded piece 5 made of rubber or similar flexible material, which is attached to a semi-rigid support plate 6, the shape of which is adapted to the curvature of the pipe. The fitting has a bead 7 running around its circumference. A vacuum tube 8 is connected to the suction head. When the suction head is attached to a part of the outer surface of a clay pipe 9, as shown in FIG. 2, and by means of the tube 8 a vacuum is applied, the bead 7 creates an airtight seal around the enclosed Area 10 of the outer surface of the pipe 9.

According to FIG. 3, solenoid valves A, B and 0 are provided for controlling the vacuum line D, which are connected to the one here

- 3 109836/0983

generally designated by E suction head is connected. at E is a pressure switch and G- is a mercury manometer connected.

During operation, an induced draft is applied to the suction head E through the vacuum line D, which is connected to a vacuum generator. The solenoid valves A and B are opened and the solenoid valve G closed by manual actuation of a switch, which is not shown, but is conveniently arranged on the handle of the suction head. The resulting decrease in pressure between the pipe wall and the bead 7 creates an airtight seal around the enclosed area 10. When the vacuum generated in this way in the suction head reaches a predetermined value, the pressure switch I ¹ responds and closes the valves A and B The flow or diffusion of air through the pipe wall into the suction head E then generates a pressure difference at the solenoid valve B, which is measured by means of the pressure gauge G. The pressure gauge is equipped with electrical contacts that trigger a visible and / or audible signal when the pressure difference reaches a specified value.

The device can also be provided with electrical timers that keep the time until the predetermined

- 4 1 09836/0983

Show pressure difference elapsing time. The timers can also be programmed in such a way that after a trigger a visible or audible signal at the specified time since the start of the measurement. In this pail the arrangement can be used for a good-bad selection among items to be tested.

Fig. 1 shows the plan of a circular suction head. This shape is suitable for removing flat objects or pipes with a relatively large diameter, eg 23 cm nominal width. I ¹ Ur pipes of smaller dimensions has a suction head of an elliptical shape as shown in FIG. 4 were found to be more advantageous. The length of the major axis of the illustrated ellipse is approximately twice the length of the minor axis. The dimensions can be chosen so that one obtains approximately the same enclosed volume as in the case of the circular suction head. Because of the shorter line of contact, when the elliptical suction head is used, a significantly greater compression of the bead 7 is obtained, in particular at the points 7a.

2 shows a section through a suction head which has a knife-like sealing bead 7. It was, however found that certain surfaces of test objects,

- 5 -
109836/0983

the protrusions or short scratches or the like have no perfect seal with the knife-like Bead 7 yield. A wider sealing bead as shown in FIG. 5 is therefore proposed for this purpose. Such a The sealing bead can have a square cross-section, as shown, or it can be radially shaped or Y-shaped Cross-section (preferably with a large opening angle), or there can be two at a distance from each other running knife-like sealing beads may be provided, being the enclosed area between the two knife-shaped Bulges, if necessary, by further knife-like edges running at right angles to the bulges can be divided. It is important that the width of the sealing bead is greater than that on the test surface existing surface defects. These different forms of sealing beads can be used with both suction head shapes described.

10 9836/0983

Claims (7)

Claims 1.) Method for determining the permeability of Objects, in particular tubes or plates, made of porous material, characterized in that j an area of the surface of the object is hermetically enclosed all the way round, and one is attached to the enclosed area Applies negative pressure and measures the time, depending on the permeability of the object, within which the negative pressure has decreased by a certain amount by high currents through the object. 2. The method according to claim 1, characterized in that that one can see the changes in negative pressure in the enclosed region by means of a display device \ visibly and / or audibly. 3. Device for performing the method according to claim 1 or 2, characterized by a suction head (5 »6) for attachment to the surface of the object (9), sealing means (7) for generating - 1 -109836/0983 an airtight seal between the suction head and the surface to enclose a surface area in an airtight manner, a device for generating a negative pressure inside the suction head and a measuring and Display device (G-) for displaying changes in the negative pressure due to air diffusion through the wall of the object. 4. Device according to A _n demanding 3, characterized in that is connected to the suction head (5, 6) a Vakuuraleitung (8), which is controlled by solenoid valves (A, B, 0) and switches (ΊΡ), with changes in Vacuum due to air diffusion into the suction head through the wall of the object can be indicated by visual and / or audible means. 5. Apparatus according to claim 3 or 4, characterized in that the visible or audible The signal can be triggered by closing an electrical circuit by moving the liquid in a manometer (G). 6. Apparatus according to claim 3 or 4, characterized in that the visible or audible LSignal can be triggered by closing a circuit by means of the contacts of a differential pressure switch. 1 09836/0983 7. Device according to one of claims 3 to 6, characterized by electrical timing devices, which show the time elapsing until a specified pressure difference is reached. 8, device according to one of claims 3 to 6, marked by electrical timing devices which, after a predetermined time, J trigger a visible or audible signal since the start of the measurement. 1098 36/0983