DE1236215B - Seismometer - Google Patents

Description

GERMAN HiiTXW PATENT OFFICE

EDITORIAL

German KL: 42c -42

Number: 1236 215

File number: S 80902 IX b / 42 c

J 236 215 Filing date: August 13, 1962

Opened on: March 9, 1967

The invention relates to a seismometer, the movable coil system on the housing with the help of at least a flat disc-shaped leaf spring is suspended. These leaf springs are circular at their Outer edge riveted, screwed or clamped to the housing, while the middle part is attached to the body of the winding or coil.

In a known seismometer, the coil body is centrally located in the housing of the seismometer by means of Spacer sleeve and screw attached to the leaf springs, the outer edge between the outer Sections of the pole body or the pole ring and is clamped between two spacer rings, which are firmly fitted in the housing. This well-known seismometer is under construction and assembly but complicated. In addition, the clamping of the springs limits or influences the suspension over a wide outer ring surface.

The aim of the invention is to create a seismometer in which this disadvantage is avoided and that simply under construction, cheap and uncomplicated to assemble.

The invention solves the problem by a seismometer of the type mentioned, in which the circular edge of the leaf spring in one on the inside of the bobbin at a very small distance in the order of about 0.5 mm from the end of the bobbin arranged annular groove in the Engages bobbin. For the introduction of the leaf spring edge, the annular groove has one at one point opening towards the end of the bobbin. The outer edge of the leaf spring has a narrow resilient tongue formed, which engages in a radial slot at the end of the bobbin, so that the spring against rotation is secured. In order to be able to insert the leaf spring and move it in the annular groove, at least a recess is provided on one side of the tongue in the edge of the leaf spring.

The tongue is preferably made in one piece with the leaf spring; the leaf spring is usually off a thin, resilient sheet, e.g. B. from phosphor bronze or beryllium copper, by etching or punching. The thickness of the leaf spring is in the order of 0.1 mm; the middle one Part of the leaf spring is attached to the seismometer housing or to the pole piece. The depth of the slot is preferred equal to the distance between the bottom of the slot and the end of the spool and is about 0.5 mm. The height of the slot is equal to or slightly greater than the thickness of the leaf spring. This results in a seismometer that is one in its construction

Applicant:

Shell Internationale Research Maatschappij N.V., The Hague

Representative:

Dr.-Ing. F. Wuesthoff, Dipl.-Ing. G. Pulse
and Dr. E. v. Pechmann, patent attorneys,
Munich 9, Schweigerstr. 2

Named as inventor:

Petrus Terentius Elskamp, Voorburg;

Johan Gregorius Hagedoorn, Scheveningen

(Netherlands)

Claimed priority:

Netherlands of August 15, 1961 (268 232) - -

simple and cheap construction that allows a very compact arrangement of the parts and through the inventive connection of the coil body with the leaf spring is particularly sensitive receives.

The seismometer according to the invention also has various relating to the electrical part of the seismometer Benefits on. So is the electrical connection with the connections via one or both leaf springs less complicated than with the known constructions. It should be noted that it is known is to use the suspension springs as parts of the supply lines.

It is also easy to determine whether the seismometer is correctly connected, i.e. whether it is correctly polarized. The method to be used here is described in U.S. Patent 2,423,970. So that this Method can be used in which a direct voltage is applied from the measuring station, whereby the seismometer acts as a breaker with one polarity, but not with the opposite polarity Polarity, a special contact must be provided; in the seismometer according to the invention can however, one of the springs can produce the desired effect by being in direct contact with it the housing, d. H. the magnet or a pole piece.

709 518/126

Claims (1)

These additional advantages result from the fact that a seismometer according to the invention Better utilization of the insulation already provided for the coil body for other reasons is possible is; here the earth is not used as a return line. The invention is illustrated below with reference to schematic drawings of an exemplary embodiment explained in more detail. F i g. 1 shows, in longitudinal section, the bobbin of the seismometer according to the invention with two leaf springs for suspending the bobbin in the seismometer housing; F i g. 2 shows the coil body according to FIG. 1 in plan view; F i g. 3 is a longitudinal section through the complete seismometer. The cylindrical bobbin 1 consists of a housing made of non-magnetic material, e.g. B. made of aluminum, the surface of which is provided with an insulating layer; a bobbin made of aluminum which has been anodized is preferably used. Two coils 2 and 3 are arranged on the coil body and are connected to one another by a line 4. At each end of the bobbin an annular groove 5, 6 is provided, the depth of which measured in the radial direction is about 1 mm and the side facing away from the associated end of the bobbin is about 0.5 mm from the end of the bobbin. A disk-shaped leaf spring T or 1 ″ is inserted into each of these grooves. The elasticity of the leaf springs is increased by incisions 8. Each leaf spring has a central opening 9 with which it is placed on the housing; there are also two openings 10 and 11 for Each leaf spring has a radially outwardly projecting resilient tongue 12 which engages in a narrow radial slot 13 of the coil former The leaf springs are shown in their installation position in Figures 1 and 2. To remove a leaf spring, it is only necessary to lift the tongue 12 until it can slide over the edge of the coil body: then the leaf spring can be rotated remove from the ring groove e tongue 12 on the outer edge, seen from above, z. B. is located on the left side of the slot 13 in its vicinity. Then the edge of the leaf spring 14 at the recess at the slot 13 is pressed into the groove and by turning to the left the spring is automatically screwed into the groove until the tongue 12 finally engages in the slot 13 after one complete rotation and prevents further rotation. Measured in the radial direction, the tongue 12 generally protrudes somewhat further into the slot 13 than the groove 5. The fixed part of the seismometer ( FIG. 3), ie the housing, consists of a hollow iron cylinder 15 which is closed at the upper and lower ends by means of plates 16 and 17; these fitted shutter plates are made of non-magnetic Material, preferably made of anodized aluminum. The cylinder 15 contains a permanent magnet 18 and pole pieces 19 and 20 made of iron. The coil body 1 is movably suspended with the aid of the two leaf springs T and 7 ″ between the cylinder 15 and the inner parts 18, 19 and 20 of the housing Sheath, e.g. made of aluminum, can be sealed in a watertight manner. The electrical circuit is through the terminal 21, the leaf spring 7 ', the coil 2, the connecting line 4, the coil 3, the leaf spring 7 ″, the inner parts 20, 18 and 19 and the connection 22 are formed. The entire inner part of the seismometer is electrically isolated from the housing 15, the Lines 21 and 22 to earth. The seismometer according to the invention can be assembled in a simple manner by the various Parts stacked on top of each other. The inner parts can be flanged together as well as with be connected to the iron cylinder. In order to determine whether the seismometer is correctly connected to the measuring cable, the measuring station A sufficiently high DC voltage is applied to terminals 21 and 22. With a certain Polarity results in a strong downward movement of the coil; here the upper leaf spring touches the pole piece 19 and short-circuits the direct current across the coil. As a result, the bobbin springs back, so that the current flows through the coil and so on again. With this polarity, the direct current becomes periodic interrupted what at the measuring station z. B. is demonstrated by the fact that it is audible power. With the opposite polarity, the coil moves upwards without interrupting the current will. In this way the correct polarity of the seismometer can be checked. It should be noted that the invention does not apply to seismometers with two coils and / or one magnet limited, but a different number of coils and / or magnets can be provided. Claim: Seismometer, the movable coil system of which is suspended from the housing with the aid of at least one flat, disk-shaped leaf spring, characterized in that the circular edge of the leaf spring (7 ', 7 ") is in a very small distance on the inside of the coil former (1) Size of about 0.5 mm from the end of the coil body arranged annular groove engages in the coil body, which has an opening at one point towards the end of the coil for introducing the leaf spring edge, and that the edge of the leaf spring has a radially extending resilient tongue (12) which engages in a radial slot (13) at the end of the bobbin, and that a recess is provided on at least one side of the tongue in the edge of the leaf spring. Considered publications:
U.S. Patent No. 2,748,370. 1 sheet of drawings 709 518/126 2. 67 © Bundesdruckerei Berlin