RU2160911C1 - Seismometer - Google Patents

Abstract

FIELD: measuring equipment, in particular, seismometry. SUBSTANCE: the seismometer has a base carrying two magnetic systems, each consisting of series-connected magnetic circuit, permanent magnet and pole piece, coil positioned between the magnetic circuit and pole piece, nonmagnetic sleeve installed inside the magnetic system in alignment with them. Positioned in the non-magnetic sleeve, on its two ends, are limiting and adjusting screws whose heads are covered with caps. Grooves are made in the joint of the pole pieces in parallel with the axis of the magnetic system. Arresting segments with slots are installed in the gap of the magnetic systems perpendicularly to their axis. Flat springs holding the segments in the position of contact with the coil form are placed in the grooves. Sealing gaskets are installed in the joint of the magnetic systems and under the cap beads. EFFECT: enhanced resistance to mechanical effects while in transit. 2 dwg

Description

 The invention relates to measuring equipment, in particular to the field of gravitational measurements, namely to seismometry.

 A known seismometer (see, for example, "Seismic Instruments", M., Nauka, 1975, issue 8, pp. 13-18), containing a base on which an inertial mass and a coil, a magnetic system including a magnetic circuit, a permanent magnet and a pole piece connected in series, the coil being placed in the working gap between the magnetic circuit and the pole piece, and also a coil spring fixed at one end to the base and the other to an inert mass.

 This seismometer does not provide high metrological characteristics, because the lack of an inertial mass displacement sensor in it makes it impossible to create a device with effective feedbacks.

 A known seismometer (see, for example, US patent 4412317, CL 367-185, publ. 1984), containing the base, two magnetic systems consisting of a series-connected cylindrical magnetic core, a permanent magnet and a pole tip, two coils located between magnetic circuits and pole tips of magnetic systems, as well as an amplifier connected by the output to the input of the coil.

 This seismometer, adopted as a prototype, has small dimensions, because in it, a node of magnetic systems performs the function of an inert mass, provides sufficient measurement accuracy due to feedback, but does not maintain accuracy during transportation or other mechanical influences, because while the coils are displaced, which leads to a change in the initial setup of the seismometer.

 The present invention solves the problem of increasing resistance to mechanical stress during transportation of the seismometer.

 This is achieved by the fact that a seismometer containing a base on which two magnetic systems are installed, each of which consists of a series-connected cylindrical magnetic cores, a permanent magnet and a pole tip, the coil located between the magnetic circuit and the pole tip, additionally contains a non-magnetic sleeve, restrictive and adjusting with a tapered tip, screws, covers, flat springs and locking segments, the non-magnetic sleeve being installed inside the magnetic systems coaxially with neither mi, and in the non-magnetic sleeve from both its ends there are placed screws that are closed with covers and are closed with a conical tip; in the gap of the magnetic systems, segments are located perpendicular to their axis, the segments are located with narrow ends on the conical tip of the adjusting screw, and the wide ones are in contact with the frame coils with axial movement of the adjusting screw, on the inner planes of the pole pieces parallel to the axis of the magnetic system, circular grooves are made in which flat springs are installed In contact with a slot in the segment, while at the junction of the magnetic systems and for the rim sealing gaskets fitted caps, such as rubber.

 This embodiment of the seismometer provides reliable arresting of the coil during transportation.

 The drawing shows the design of the proposed seismometer, where in FIG. 1 is a perspective view, and FIG. Figures 2 and 3 show sections along AA in the working and seated position of the seismometer.

 A seismic meter (see Fig. 1) contains a base 1, two magnetic systems, each of which consists of a cylindrical magnetic circuit 2, a permanent magnet 3 and a pole piece 4. A coil 5 is installed between the magnetic circuit 2 and the pole piece 4. Coaxial with the magnetic systems and inside them a non-magnetic sleeve 6 is located, in which the restrictive 7 and adjusting 8 with a conical tip screws are placed. Covers 9 and 10 are mounted above the heads of screws 7 and 8, respectively. At the junction of the pole pieces, circular grooves 11 are made parallel to the axis of the magnetic system 11. In the gap of the magnetic systems, segments 12 with slots 13 are mounted perpendicular to their axis (see Figs. 2 and 3). In the grooves 11 there are elastic elements 14 in contact with the slot 13 in the segments 12 and holding the segments 12 in a state of contact with the frame of the coil 5, suspended on two flat springs 15. Under the sides of the covers 9 and 10 and at the junction of the magnetic systems are installed gaskets 16, 17 and 18. For vertical installation of the seismometer on the base 1, a shock absorber spring 19 is provided.

 When the seismometer is in working condition, the adjusting screw 8 with a conical tip is brought to the extreme left position. In this case, the segments 12 are squeezed out by the elastic elements 14 and are held in contact with the frame of the coil 5 by them.

 If it is necessary to transport the seismometer, open the cover 10 sealed with a gasket 17 and screw the adjusting screw 8 until its conical tip comes into contact with the narrow end of the segment 12. With further movement, the conical surface of the screw 8 shifts the segments 12, which deform the flat springs 13 and arrest the coil frame 5.

 The adjusting screw 8 is screwed into the non-magnetic sleeve until its conical tip comes in contact with the limit screw 7 (see Fig. 3).

 The arresting system is adjusted in such a way that when the ends of the adjusting and limiting screws touch, the segments 12 are displaced by the conical surface of the adjusting screw 8 so that the segments 12 come into contact with the frame of the coil 5 with a force that reliably holds the coil under mechanical stresses on the seismometer.

 Reliability of locking is ensured by the initial installation of the restriction screw 7. After installing the restriction screw 7, the cover 9 above its head is closed through a sealing gasket 16.

 Thus, during transportation of the seismometer, its initial adjustment is maintained, i.e. After transportation, the accuracy of the seismometer does not change.

Claims (1)

 A seismometer containing a base on which two magnetic systems are installed, each of which consists of a series-connected cylindrical magnetic circuit, a permanent magnet and a pole tip, a coil suspended between two magnetic springs, located between the magnetic circuit and the pole tip, characterized in that it further comprises a non-magnetic sleeve , restrictive and adjusting with a tapered tip screws, covers, elastic elements and locking systems, moreover, a non-magnetic sleeve is installed in the morning of the magnetic systems are coaxial with them, and the screws closed with covers are placed on both ends of the non-magnetic sleeve with the conical tip, the arresting segments are installed in the gap of the magnetic systems perpendicular to their axis, located with narrow ends on the conical tip of the adjusting screw, and wide - coming into contact with the frame of the coil during axial movement of the adjusting screw, on the inner planes of the pole pieces parallel to the axis of the magnetic system are made circular rotochki in which the elastic members are installed in contact with the slit in the segment, while at the junction of the magnetic systems and for the flanges of covers mounted sealing gaskets, for example rubber.

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