RU170220U1 - VIBRATION ALARM CONTACT ALARM - Google Patents

Abstract

The utility model relates to a mine detector alarms, the operation of which is based on the transmission of a low-power vibration pulse to a sapper hand through the mine detector handle when an alarm signal from a search element appears on the signal processing unit. The mine detector’s contact vibration alarm consists of a housing in the form of a mine detector handle and an integrated low-power vibration element connected to a signal processing unit of the mine detector’s induction frame, or other search channels in the case of multi-channel VOP search tools. Using the proposed technical solution will eliminate all possible unmasking factors. It also excludes the possibility of hooking and breaking the wires of the head microphones. The sapper will have the opportunity to control the environment as much as possible, without interrupting the process of reconnaissance of GPs. 2 ill.

Description

The invention relates to mine detector alarms.

Known devices in which alarms are carried out by sound and visual alerts. The PPO-2 device is a multi-channel means of searching for explosive objects. The sapper was notified of suspicious objects detected by induction and radio wave search channels using headphones and a liquid crystal screen (www.geotech.ru).

The closest analogue is the mine detector IMP-C2. (Operational manual UTDN.411171.005 RE, CJSC "Protection Group - UTTA", 42 pp. Www.detektor.ru).

In the mine detector IMP-C2, sound notification is realized using head microphones connected to the signal processing unit by wire. The device also has an LED warning indicator for the sapper about suspicious objects, implemented in the control and display unit located on the mine detector handle and connected to the signal processing unit of the search element.

The disadvantages of the sound channel of notification of known devices are: complication of auditory perception of the environment, which is extremely dangerous when working behind enemy lines; the presence of the connecting wires of the head microphones, restricting the movement of the sapper, capable of catching on surrounding objects and failing.

The disadvantage of the visual notification channel of known devices is the complete concentration of the sapper on the screen.

The objective of the utility model is to transmit the mine detector alarm without any unmasking signs and without restricting the operation of the visual and auditory receptors of the sapper.

The solution to this problem is achieved by the fact that the alarm signal from the search channels of the mine detector after passing through the processing unit, is fed to the vibration element integrated in the mine detector handle, with which the sapper’s hand is in constant contact.

Using the proposed technical solution will eliminate all possible unmasking factors. It also excludes the possibility of hooking and breaking the wires of the head microphones. The sapper will have the opportunity to control the environment as much as possible, without interrupting the process of exploration of explosive objects (GP).

The block diagram of the contact-vibration detector of mine detector alarms is shown in FIG. one.

The contact-vibration detector of alarms of the mine detector consists of a vibration element 1 built into the handle of the mine detector 2, connecting wires 3 that transmit the signal from the signal processing unit 4, coming from the search elements 5.

The claimed technical device operates as follows (Fig. 2). After getting to the alarm processing unit 4 from the search elements 5, the vibration element 1, built into the handle of the mine detector 2, is energized, after which the sapper feels a vibration that signals the detection of a suspicious object.

Claims (1)

The contact-vibration detector of alarms of the mine detector, consisting of a handle and a processing unit of the mine detector signal, characterized in that a low-power vibroelement is connected to the mine detector handle, connected to the signal processing unit of the search element.

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