UA110247U - Vibration Sensor Sensor Line - Google Patents

Abstract

The vibration sensor includes a hollow housing, provided with a device for its attachment, and inside the housing is fixed board with conductive contacts on the upper surface, and under these contacts, with a gap, are freely oriented with a certain degree of freedom conductive elements, while conductive contacts' in at least two groups of contacts.

Description

The useful model belongs to security alarm technology, namely to vibration sensors of the sensor line, and can be used to protect any objects from intruders.

To date, a number of vibration sensors are known, the principle of which is based on the piezoelectric effect (a change in the electrical signal during the vibration of the piezoelectric element): the electrical signal, which is proportional to the level of vibration, is processed by the detector circuit according to a special algorithm in order to eliminate the destructive effect of the interfering signal. The sensor detects surface vibrations and transmits a corresponding signal to the central alarm unit.

Vibration sensors are widely used in security systems to protect against intruders safes, windows, showcases, metal cabinets and ATMs, concrete, brick walls and ceilings.

Well-known vibration sensor for security alarm devices (Author's certificate

USSR 318047, cl. С2О8В 13/14, op. 1971), which contains a housing with a mounting surface and contact plates fixed in the housing, made with the possibility of closing them with an electrically conductive ball.

A vibration sensor for security alarm devices is also known (Patent 2060554 (RF), 1996, IPC 602088 13/02, op. 20.05.1996), which contains a case with a glass bulb fixed inside, in which are placed normally closed contact plates, the contact planes of which form an angle of 30-60 with the mounting surface of the case.

The disadvantages of the above-mentioned sensors are their low functional reliability, which consists in the fact that when the mechanical contact of the sensor with the blocked surface is broken, for example, disconnection due to the aging of the adhesive seam, accidental or intentional (for the purpose of sabotage) separation, control over the structure is lost, which guarded without any alarm to the user, which is unacceptable for security alarm devices.

The basis of the useful model is the task of improving the vibration sensor of the sensor line in which, by developing an original design of the vibration-sensitive element, to ensure its functional reliability for security alarm devices.

The task is solved in the vibration sensor of the sensor line, contains a hollow body, equipped with a device for its fastening, according to the utility model, inside

A board with conductive contacts is fixed from the case on the upper surface, and under these contacts, with a gap, freely oriented conductive elements with a certain degree of freedom are located. At the same time, the conductive contacts on the board are connected in at least two groups of contacts. Current-conducting elements are made in the form of a sphere. The number of conductive elements ranges from 3 to 8 pieces. The hollow body is made of highly resistant plastic material.

It is this design of the vibration sensor that allows you to respond to vibrations with a frequency of about 1000 Hz, which occur on a mesh fence, on which the specified sensor can be installed, when it is overcome or destroyed by an intruder. Low-frequency signals, for example, arising as a result of low wind loads, are filtered, which prevents false activation of the system.

The useful model is explained by the illustrative materials, where it is shown: in Fig. 1 - general view of the sensor in axonometry; in Fig. 2 - general view of the sensor in section; in Fig. C - view of the board from the side of the contacts; in Fig. 4 - a view of the board in section along A-A in Fig. 3.

The drawing shows the design of the sensor and its installation scheme.

The vibration sensor, which contains a hollow body 1, is equipped with a device for its fastening, for example, a clamp (not shown in the drawing), inside the body is fixed a board C with conductive contacts 4 in the number of 9 to 24 pt. on the upper surface, and under these contacts, with a gap, there are freely oriented current-conducting elements 5 with a certain degree of freedom, while the current-conducting contacts on the board are connected in at least two groups of contacts. Current-conducting elements are made in the form of a sphere. The number of conductive elements ranges from 3 to 8 pieces. The hollow body is made of highly resistant plastic material.

The vibration sensor of the sensor line is installed sequentially ("in a gap" on a 100-meter length of cable with a discreteness of 2.5 or 3 meters, depending on the distance between the supports of the mesh fence, taking into account the fact that at least one vibration sensor is installed between the supports. At a height fence more than 4 meters, the sensor line is installed in two rows (in height), which allows to ensure uniform sensitivity of the sensor line over the entire area of the grid panel. The design of the vibration sensor provides for its installation horizontally

(by level), regardless of the angle of inclination of the terrain relative to the horizon. The vibration sensor is fixed on the panel mesh fence with the help of the mounting kit, which is included in the delivery set. The details of the assembly kit provide, when installing the product, the possibility of adjusting its position in two planes with subsequent rigid fixation of the selected position. The cables of the system are attached to the fence with the help of plastic ties, taking into account one tie for every 0.5 meters of the cable.

The sensor line can be installed not only on a panel mesh fence, but also on a mesh fence of the "shackle" type, AKS turns of the "Egoza" type, a fence made of wood, a sheet metal profile, and other types of fences. Different resonant properties of fences are taken into account when installing the system and setting the detection parameters in the signal processing units for each protected area, including anti-mining nets, entrance gates, sensors of other types of detection (when creating a system of technical protection devices from several different types of detection devices).

The sensor works as follows. In the event of vibrational oscillations of the fence, on which the vibration sensor of the sensor line is installed, the current-conducting elements 5 begin to oscillate under the board with the current-conducting contacts 4. At the same time, the groups of contacts 4 are closed with each other by the current-conducting elements 5 with the corresponding frequency, which is adequate to the vibration of the fence. Low-frequency signals, for example, received from weak wind loads, are filtered in the registration block (not shown in the illustrative materials), and the system does not respond to them.

Thus, the above-mentioned vibration sensor has increased functional reliability, preventing the loss of control of the protected structure in the event of a violation of its mechanical contact with the blocked surface, and also excludes the possibility of a deliberate decrease in sensitivity under the influence of a magnetic field.

Claims (4)

USEFUL MODEL FORMULA 1. A vibration sensor containing a hollow body, equipped with a device for its fastening, which is characterized by the fact that inside the body a board with conductive Zo contacts is fixed on the upper surface, and below these contacts, with a gap, freely oriented conductive elements with a certain degree of freedom are located , while the conductive contacts on the board are connected in at least two groups of contacts. 2. The vibration sensor according to claim 1, which is characterized by the fact that the current-conducting elements are made in the form of a sphere. 3. The vibration sensor according to claim 1, which differs in that the number of current-conducting elements is from 3 to 8 pieces. 4. The vibration sensor according to claim 1, which is characterized by the fact that the hollow body is made of a highly resistant plastic material. ше хх KE их С I o shk shk dn that "horn. 1 for Shk M denni u dor OTO a ta shushe eshshe SHY, Kygh SV i EN ne mak zhini SHE JAK Z Y passe sor syu Ti and Y kekachnaih I vky Z ef: a and Z B; sew up Chng. y sia Oz x Ka v kosa ore y zu 1 Ash ban, As. 4 VA shi No yi Fig. 4