RU194875U1 - MAGNETIC CONTACT DETECTOR - Google Patents

Abstract

The claimed device relates to monitoring and signaling, in particular, to security magnetic detectors, which are used to lock garage doors, hangars, railway containers, telephone cabinets and other structural magnetically conductive (metal) elements of buildings and structures for opening or shifting to the receiving circuit -control device alarm notification when the declared detector is triggered. The technical result is to increase the structural strength of the detector and increase its durability. The claimed result is achieved due to the design of the magnetic contact security detector, which contains a detecting element and a control element, and the detecting element contains a housing, inside which there are step recesses separated by a partition, in one of which a magnetically controlled sensor is installed, and in another there is a magnet located in such a way as to ensure a constant the magnetic field around the magnetically controlled sensor with a force insufficient to trigger the magnetically controlled sensor, the magnet being made at least 80-100 times smaller than the size of the magnet of the control element; the control element is made in the form of a housing in which the magnet is contained, and the housing of the detecting and control elements are trapezoidal with rounded edges.

Description

FIELD OF TECHNOLOGY

The claimed device relates to monitoring and signaling, in particular, to security magnetic contact detectors, which are used to lock garage doors, hangars, railway containers, telephone cabinets and other structural magnetically conductive (metal) elements of buildings and structures for opening or shifting to the receiving circuit -control device alarm notification when the declared detector is triggered.

BACKGROUND

The well-known security magnetic contact detector IO102-20 (100) according to the patent of the Russian Federation No. 146936, which consists of a detecting element (11) - a sensor, and a control element (12) - a magnet (Fig. 1). Moreover, the control element (12) has significant dimensions and weight in order to achieve a high value of the magnetic field, to ensure the necessary distance between the detecting element (11) and the magnet (12) in the "standby" mode, because it is installed on a magnetically conductive surface (for example, steel), which reduces the effect of a magnetic field on the magnetically controlled sensor reed switch. The height and dimensions of the detector design affects its strength in case of possible impacts by external objects, as well as its specific gravity.

Thus, to improve the strength characteristics of the detector, it is necessary to reduce its size while ensuring the proper functioning of the device to fulfill the prescribed goals.

DISCLOSURE OF A USEFUL MODEL

The technical problem to be solved is the creation of a new design of a smaller magnetic contact detector.

The technical result is to increase the structural strength of the detector and increase its durability.

The claimed result is achieved due to the design of the magnetic contact security detector, which contains a detecting element and a control element, moreover

the detecting element comprises a housing inside of which step recesses are made, separated by a partition, in one of which a magnetically controlled sensor is installed, and in the other a magnet located so as to provide a constant magnetic field around the magnetically controlled sensor with a force insufficient to trigger the magnetically controlled sensor, the magnet is made at least 80-100 times smaller than the magnet size of the control element;

the control element is made in the form of a housing in which a magnet is contained, and

the cases of the detecting and control elements are trapezoidal with rounded edges.

In one particular example of the implementation of the inventive detector, the magnetically controlled sensor is a reed switch.

In another particular example of the implementation of the inventive detector housing of the detecting and control elements are made of plastic or metal.

In another particular example of the implementation of the inventive detector, the axis of symmetry of the magnet and the reed switch of the detecting element and the magnet of the control element relative to the side walls of the detector housings are the same.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates an analogue of the claimed solution.

FIG. 2 illustrates a cross-sectional view of the proposed detector design.

FIG. 3 illustrates photographic images of the proposed product design.

IMPLEMENTATION OF A USEFUL MODEL

In the proposed detector design, in particular as shown in FIG. 2, an additional magnet (22) is installed in its detecting element (21), which creates a constant magnetic field around the reed switch (23). In this case, the contacts of the reed switch (23) remain open. In the case of the element (21), stepped recesses are carried out, separated by a partition. A magnetically controlled sensor in the form of a reed switch (23) is installed in one of the recesses, and a magnet (22) in the other, which is positioned so as to provide a constant magnetic field around the reed switch (23) with a force insufficient to trigger the magnetically controlled sensor (24) shown in FIG. 3.

In order to provide the required functionality and achieve small sizes of the elements of the magnetic contact detector, the magnet (22) is made at least 80-100 times smaller than the size of the magnet of the control element (24). The dimensions of the magnet can be, for example, 22 * 20 * 8 mm for the magnet of the control element (24), and 8 * 2 * 2 mm for the magnet (22) of the detecting element (21).

Cases of the detector elements (21, 24) are trapezoidal with rounded faces of external radii, which provides additional strength under external influence. The material for making the element bodies (21, 24) may be metal and plastic. In this case, the axis of symmetry of the magnet (22) and the reed switch (23) of the detecting element (21) and the magnet of the control element (24) with respect to the side walls of the detector housings coincide, which eliminates the displacement and attenuation of the magnetic flux.

By choosing the optimal ratio of the dimensions of the magnet (22) of the detecting element (21) and the magnet of the control element (24), the dimensions and weight of the detector elements are reduced several times with the distance between the detecting element (21) and the magnet (24) in the “standby” mode .

The detector operates as follows.

A reed switch (23) is installed in the housing of the detecting element (21), the contacts of which are connected to the wires coming out of the sensor housing (21) in the form of a cable and are designed to transmit an alarm signal to the receiving panel for its receipt by the security communications.

Reed switch (23) (sealed contacts) consists of two elastic contacts sealed in a glass tube. In the absence of a magnetic field around the reed switch (23), the contacts of the reed switch (23) are open. At a certain magnitude of the magnetic field around the reed switch (23), its contacts are closed, which corresponds to the “standby” mode of the detector. The state of the sensor with the open contacts of its reed switch (23) corresponds to the alarm signal.

The sensor design is installed on the metal structural elements (door, window frame, gate, etc.), while the detecting element (21) is installed on the fixed part, and the control element (24) on the movable part. The detector elements (21, 24) are installed at such a distance between them that the contacts of the reed switch (23) are closed from the magnetic field of the control element (24). When the magnetic effect on the reed switch (23) is weakened, in particular when the element (24) is removed, for example, as a result of opening the door, the contacts of the reed switch (23) open and an alarm occurs.

Claims (5)

1. A magnetic contact security detector comprising a detecting element and a control element, the detecting element comprising a housing, inside which step recesses are made, separated by a partition, in one of which a magnetically controlled sensor is installed, and in the other there is a magnet located in such a way as to ensure a constant magnetic field around the magnetically controlled sensor with a force insufficient to trigger the magnetically controlled sensor, the magnet being made at least in size 80-100 fold less than the dimensions of the magnet of the control element; the control element is made in the form of a case in which a magnet is contained, and the cases of the detecting and control elements are trapezoidal with rounded edges. 2. The detector according to claim 1, characterized in that the magnetically controlled sensor is a reed switch. 3. The detector according to claim 1, characterized in that the housing of the detecting and control elements are made of plastic or metal. 4. The detector according to claim 2, characterized in that the axis of symmetry of the magnet and the reed switch of the detecting element and the magnet of the control element relative to the side walls of the detector housings are the same.

Images