RU2361720C1 - Vibration sensor magnetic holder - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to devices used for fastening and fixing of sensors at facilities specifically purposed for vibration and oscillation measuring. Vibration sensor magnetic holder consists of frame for sensor fixing and permanent magnet equipped with magnetic core containing two ferromagnetic plates located at both sides of permanent magnet so that planes of plates are perpendicular towards direction of magnet magnetisation. Plates have one or several facets parallel to direction of magnet magnetisation; moreover facets of one plate are parallel to respective facets of the other one. Frame is made of non-ferromagnetic material and fixed rigidly to both plates along their surface parallel to direction of magnet magnetisation and perpendicular to direction of vibration.

EFFECT: enhancement of device operational capability and increase in measuring accuracy of vibration.

5 cl, 3 dwg

Description

The invention relates to the field of devices for mounting and fixing sensors on objects, in particular when measuring vibrations and vibrations.

A magnetic device is known for holding ferromagnetic parts on a ferromagnetic surface [1], consisting of permanent magnets and magnetic circuits installed in the housing. The disadvantage of this device is its limited functionality.

The closest analogue of the invention is the magnetic holder of the sensor of the vibrometer type VK-5 [2]. The disadvantage of the prototype device is the limited ability to mount the sensor on objects with different slopes of the sensor installation surfaces with respect to the direction of vibration.

The present invention is aimed at expanding the operational capabilities of the device and improving the accuracy of vibration measurement.

The specified technical result is achieved in that the magnetic holder of the vibration sensor, comprising a housing for mounting the sensor and a permanent magnet, is additionally equipped with a magnetic circuit made of two ferromagnetic plates located on both sides of the permanent magnet so that the plane of the plates is perpendicular to the direction of magnetization of the magnet. The plates are made with one or more faces parallel to the direction of magnetization of the magnet, and the faces of one plate are parallel to the corresponding faces of the other. The housing is made of non-ferromagnetic material and is rigidly attached to both plates along surfaces parallel to the direction of magnetization of the magnet and perpendicular to the direction of vibration.

The magnet and plates can be made in the form of rectangular parallelepipeds, and the faces of the plates lying in one plane are provided with three or more protrusions, two of which are located on the face of one plate, and one or more protrusions are on the face of another plate. In addition, the holder can be additionally equipped with a sensor mounting element in the form of a stud mounted on the housing and made of insulating material, including reinforced with a metal pin.

Introduction to the device of a magnetic circuit made of two ferromagnetic plates located on both sides of the permanent magnet so that the plane of the plates is perpendicular to the direction of magnetization of the magnet, and the implementation of plates with one or more faces parallel to the direction of magnetization of the magnet, and the faces of one plate are parallel to the corresponding faces of the other , allows you to expand the scope of vibration sensors due to the possibility of their installation on objects with different slopes of the surfaces Sensor alignment with respect to the direction of vibration.

Rigid fastening of the body to both plates along surfaces parallel to the direction of magnetization of the magnet and perpendicular to the direction of vibration makes it possible to directly (without unnecessary parasitic links, for example, fasteners, etc.) transfer vibrations and vibrations of the object from its working surface to the sensor.

The implementation of the magnet and plates in the form of rectangular parallelepipeds provides simplification of the holder and the ability to install the sensor on the object on mutually perpendicular surfaces.

The execution of the faces of the plates lying in the same plane, with three or more protrusions, two of which are located on the edge of one plate, and one or more protrusions - on the edge of another plate, provides stability to the holder on the working surfaces of objects with irregularities and roughness.

Providing the holder with a sensor mounting element in the form of a stud mounted on the housing and made of insulating material, allows you to isolate the electrically vibration sensor from the holder.

The implementation of the studs of an insulating material reinforced with a metal pin provides strength and durability of the sensor mounting element while maintaining electrical insulation between the vibration sensor and the holder.

The invention is illustrated by drawings, where Fig. 1 shows a general diagram of a magnetic holder for a vibration sensor (sectional view), Fig. 2 is the same left view, and Fig. 3 is a location of a holder on a vertical surface of a test object.

The magnetic holder of the vibration sensor (Figs. 1-3) consists of a non-ferromagnetic body 1 attached with screws to two ferromagnetic plates 2, a permanent magnet 3 located between the plates in such a way that the direction of its magnetization is perpendicular to the plane of the plates. The housing is equipped with an attachment element for the vibration sensor 4 in the form of a stud 5 made of insulating material. The hairpin can be reinforced with a metal rod (not shown in the figures). The plates 2 can be made with one or more faces parallel to the direction of magnetization of the magnet, and the faces of one plate are parallel to the corresponding faces of the other. In particular, the plates can be made in the form of rectangular parallelepipeds, due to which the magnetic holder can be mounted on the horizontal (figure 1, 2) or vertical (figure 3) surface of the ferromagnetic elements of the controlled object 6.

The device operates as follows. The vibration sensor 4 is attached through an insulating pad to the housing 1 (Figs. 1-3) of the magnetic holder using a pin 5, after which the holder is mounted on the surface of the ferromagnetic element of the controlled object 6. Due to the fact that the magnetic flux from the permanent magnet 3 is closed through the ferromagnetic plate 2 and the element of the object 6 with minimal air gaps in the magnetic circuit, there is a force of attraction of the holder to the object, sufficient for reliable fixation of the entire sensor-holder system on the surface and. In this case, the vibrations (vibrations) are transmitted from the object 6 to the vibration sensor 4 along the shortest path through the rigid elements "object 6 - plate 2 - housing 1 - vibration sensor 4" both in horizontal (Fig. 1, 2) and in vertical (Fig. 3) the location of the surface of the object on which the holder with the sensor is mounted.

Information sources

1. Description of the invention “Magnetic device” to the patent of the Russian Federation No. 2176594, B28B 7/28, B25B 11/00, 10/12/2001

2. The vibrometer type VK-5: www.measurement.ru/gk/vibro/01/15.htm.

Claims (5)

1. A magnetic holder for a vibration sensor, comprising a housing for mounting the sensor and a permanent magnet, characterized in that it is additionally equipped with a magnetic circuit made of two ferromagnetic plates placed on both sides of the permanent magnet with their planes perpendicular to the direction of magnetization of the permanent magnet, ferromagnetic plates made with one or more faces parallel to the direction of magnetization of the permanent magnet, and the faces of one ferromagnetic plate n are parallel to respective edges of the other body is made of non-ferromagnetic material and is fixedly attached to both surfaces of the ferromagnetic plates, parallel to the direction of magnetization of the permanent magnet and the direction perpendicular vibrations. 2. The holder according to claim 1, characterized in that the permanent magnet and ferromagnetic plates are made in the form of rectangular parallelepipeds. 3. The holder according to claim 1, characterized in that the faces of the ferromagnetic plates lying in one plane are provided with three or more protrusions, two of which are located on the face of one plate, and the rest on the face of another plate. 4. The holder according to claim 1, characterized in that it is additionally equipped with a fastening element of the vibration sensor, made in the form of studs of insulating material mounted on the housing. 5. The holder according to claim 4, characterized in that the stud is made of insulating material reinforced with a metal pin.

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