DE2650931A1 - Pipeline filter with removable screen - having magnetically coupled pressure difference detector and indicator - Google Patents

Abstract

Increase in pressure drop across a filter is detected by movement of a carrier with a permanent magnet, operating a switch of giving visible indication. The unit has inlet and outlet screwed or flanged connection for direct mounting in a pipeline system. It incorporates a cylindrical screen, closed at one end, and surrounded by a carrier with permanent magnets. The whole assembly can slide laterally within the housing, against the pressure of a spring. Used for pipeline filters or strainers for gases or liqs. System gives ready detection and indication of filter fouling and increased pressure drop it is easily dismantled and cleaned.

Description

Dirt trap for installation in pipelines with a rapid sieve and a

Device for monitoring the sieve contamination (addition to the DBP 23 09 705) It is well known that dirt traps are used in pipeline systems, to clean contaminated liquid or gaseous media and prevent clogging of the Pipe system or a contamination of the 4 valves built into the pipe system and devices to prevent. To display the contamination of the sieves designed as sieves Mud flaps are known to change with the degree of pollution Display pressure drop on the sieve, for example by means of a differential pressure piston manometer, to open a bypass valve when the differential pressure increases, while at the same time the occurring stroke movement of the piston is transmitted to the outside and displayed will.

In DBP 23 09 705 there is a dirt trap for installation in pipelines placed under protection, which is formed with a screen and one from the pressure drop Contains a device loaded on the sieve for monitoring the sieve contamination, the one against the restoring force of a spring in the flow space of the pipeline adjustably mounted actuator and one connected to the actuator Magnetic field generating transmitter for the actuation of an outside of the flow space arranged magnetic field evaluation that can be controlled by the positioning movement of the encoder consists. This new type of dirt trap is characterized in that the magnetic field evaluator mounted displaceably and lockable in the direction of movement of the actuator is.

The transmitter generating a magnetic field is preferably permanent magnetic Lifting magnet and the magnetic field evaluator as a protective gas contact that can be actuated by the lifting magnet educated.

The device according to DBP 23 09 705 has proven itself in practice.

Experience shows, however, that once the effort for a corresponding Device is relatively large and on the other hand the cleaning of the soiled Siebes caused some difficulties. This sieve must include the the entire lower part of the device can be removed by unscrewing this lower part, It is unavoidable that the various built-in parts such as compression springs, Retaining rings, guide bushings and sealing rings are available as individual parts.

The reassembly of the equipment required after cleaning creates certain difficulties for inexperienced fitters. There is also the risk of that some of the items mentioned above were lost during the cleaning process walk.

The present invention represents a further development of the DBP 23 09/05 is a protected facility. It is characterized by that the ring-shaped, provided with permanent magnets, counteracts the flow of media Force of a compression spring moved encoder with a lying in the direction of flow, through the ring magnets protruding and detachable from the encoder cylindrical treasure trap sieve in arranged in a pipe section connected to the pipeline is designed as a protective gas contact as in the main patent.

However, it can also use a ferromagnetic ball to display the Degree of pollution included.

The attached two figures show different embodiments the device according to the invention. In Fig. 1 the longitudinal section is one in one Pipe section of built-in dirt trap with inert gas contact as a magnetic field evaluator shown.

Fig. 2 also shows in longitudinal section an embodiment of the invention Mud flap, in which the magnetic field evaluator also has an optical display is equipped for the degree of pollution. This consists of a ferromagnetic Ball in a longitudinal groove made in the flow direction in the housing wall Movable, through which the encoder, provided with two permanent magnets, is moved.

In Fig. 1, 1 is the tubular body which is externally threaded at its ends 2 is provided. Connecting pieces are made by means of throws that are not shown in detail Connected to the end faces of the tubular body 1 via flat seals.

The encoder 3 consists of a tubular part for receiving the Encoder magnets 4 and 5, as well as the retaining ring 6 for the compression spring 7.

The retaining ring 6 carries the guide ring 8 by means of the transmitter 3 the inner wall of the tube 1 is performed. This tour can also be done by a hexagonal guide ring, but it can also be used in place of the 0-ring 12 a guide ring, for example made of Teflon, for guiding the encoder 3 in the tube 1 can be used. On part 9 of the encoder 3, a second is also the same or similar trained guide member 10 attached. The spring 7 is through the Insert 11 held and press the encoder 6 against the stop 12. The insert 11 is provided with a BuM 13 and is held in position by an inner ring 14 held.

The encoder 3 is equipped with the sieve 15, which is at its front Side is provided with a collar 16. This collar 16 can have 2 or more ferromagnetic pins 17 be provided, which on the front pole face of the Magnet 4 meet and due to the ferromagnetic forces, the collar 16 with the Hold sieve 15 in position. The outer diameter of the collar 16 is dimensioned so that that after the device has been removed from the line, the sieve is attached to the tubular body 1 can be taken against the direction of flow.

When the dirt trap according to the invention is in operation, the liquid flows or gaseous medium in the direction of arrow 18 through the screen body 15 and moves this with the encoder 3 with increasing degree of pollution due to the occurring Differential pressure between contaminated and cleaned medium in the direction of flow against the force of the spring 7. The magnets 4 and 5 are in the direction of flow emotional. You operate the example shown in the example shown as a protective gas contact, according to main patent DBP 23 09 705 displaceable in the direction of movement of the actuator and lockable mounted magnetic field evaluator 19. On a not shown in Fig. The desired switching point can be set to the differential pressure to be selected in a scale calibrated in bar can be set. The magnetic field evaluator can be through an inserted cable or be shot by a detachable connector 20.

for the one that becomes necessary after the magnetic field evaluation 19 has responded When cleaning the device, the two covers (not shown) are removed. At the same time, the cable connector 20 of the magnetic field evaluation is also expediently solved, if this is provided with a plug connection. The whole body 1 including all internal parts and including the magnetic field evaluator can then be taken from the line. If the magnetic field evaluator is connected 19 via a permanently attached cable, before removing the body 1 to detach the magnetic field evaluator 19 from the body 1.

Then the screen 15 is on the collar 16 by hand from the Encoder 3 removed. The encoder 3 including the applied magnets 4 and 5, the guides 6 and 8 and the spring 7 remains in the body 1 without any Items can be loosened or lost. After vigorously rinsing the Sieves 15, this can in turn be built into the encoder by means of the collar 16. The ferromagrietic pins 17 are inserted into the encoder in such a way that the The end faces touch the magnet 4. The device is then returned to the Line inserted and through the screw connections, not shown, over seals pressure-tight connected to the pipe system.

Embodiment shown in FIG. 2 with additional display the degree of pollution consists of the housing 21 that both sides with collars 22 is provided. These soldered-on or welded-on collars hold the cylindrical end sections 23 of the cylinder -hexagonal or square-shaped housing 1 movable covers 24, which are captive in the illustrated embodiment connected to the device. The internal structure of the device corresponds roughly to the in Fig. 1 embodiment shown. The magnetic field evaluator 25 again exists from one according to the main patent in the direction of movement of the actuator and lockably mounted reed switch 26 and additionally from a ferromagnetic Ball 27 in a groove 29 in the flow direction 28 of the device body 21 is freely movable. This ball 27 is used to display the degree of soiling not by a scale shown in FIG. 21, which is in bar for the differential pressure occurring is calibrated on the dirt trap 37. The two permanent magnetic rings are used for a hysteresis-free display 31 and 32 which are magnetized in the axial direction, with poles of the same name directly installed adjacent, creating a strongly distorted magnetic field which Ball 27 leads exactly in the parting plane of the magnetic rings 31 and 32. The adjustable one Magnet switch 26 is thereby of the same, with the same direction magnetization closely adjacent magnet rings 31 and 32 acted upon.Er kan as a bistable switch be designed to utilize the longest possible displacement path of the encoder 33 to be able to. The encoder 33 is also in this embodiment via guide bodies 34 led. These are designed as hemispherical heads in the guide ring 35. They guide the encoder 33 in the housing 21. The slidable and lockable one Magnetic field evaluator 25 is provided with reed switch 20.

It is expediently combined with one not shown in FIG Pointer that shows the setting of the switching point in cash at the aforementioned Scale for the ferromagnetic indicator ball 27 made possible.

L e r s e i t e

Claims (2)

Patent claims: 1.) Mud flaps with one in the direction of movement an actuator displaceable and adjustably mounted magnetic field evaluator according to DBP 23 09 705, characterized by geken @ that a permanent magnet (Fig. 1; 4,5) provided @ @ ing-shaped, with media flow against the force of a compression spring (Fig.1,?) Moving encoder (Fig 1,3) with a lying in the direction of flow, through the ring magnets (Fig. 1; 4,5) protruding and from the encoder (Fig. 113) detachable cylindrical Strainer screen (Fig. 1; 15) in a pipe section screwed into the pipeline (Fig. 1,1) is arranged. 2.) Device according to claim 1, characterized in that the Magnetic field evaluator (Fig. 2,33) additionally with one in the direction of flow on the Cehäuseaussenwand extending groove (Fig. 2, 29) movably movable Ball (Fig. 2.27) is equipped to display the degree of soiling.