RO201500014U1 - Anti-intrusion system - Google Patents

Abstract

The invention relates to an anti-intrusion system for sites located in hard-accessible zones, where the access of persons is difficult, meant to be used mainly in real-time anti-intrusion monitoring of oil wells. According to the invention, the system comprises an anti-intrusion monitoring subsystem (A) located in the protected area and another subsystem (B) for processing the data received from the monitoring subsystem (A), where the monitoring subsystem (A) comprises a presence sensor (1) meant to detect the persons entering the monitored area, a metal casing (2) provided inside with a supply and communication equipment (E), a transmission antenna (3) used, together with a radio transmitter (4), to transmit an event towards the data processing subsystem (B), a projector (5) having the role of illuminating the monitored area by night, when the presence sensor (1) is activated, and a video camera for recording/taking photographs of the event, all the said elements being mounted on a metal post (7) of a monitored oil well, where the data processing subsystem (B) comprises a receiving antenna (19) and a receiver (20) mounted on a metal post (21), by means of an attachment and sustaining support (22), while a data processing equipment (23) is mounted remotely or is placed on a mobile vehicle, the receiving antenna (19) and the receiver (20) having the role of receiving signals from the transmitter (4) and to forward them to the data processing equipment (23).

Description

RO 2015 00014 U1

Anti-burglary system 9

BACKGROUND OF THE INVENTION The present invention relates to an anti-burglary system in locations in hard-to-reach areas with large land unevenness where access is difficult, costly, or even impossible, especially used to monitor burglary oil wells but not only. Monitoring is done in real time, without the intervention of an operator.

It can be appreciated that intrusion alarm systems have been used for years and are common in commercial and residential applications, but not only. Typically, these alarm systems consist of one or more passive sensors connected to an anti-theft alarm panel located in a building that monitors the area as well. When the system is " armed " and any sensor is enabled, a notification is sent to a central monitoring equipment, usually through a dial-up connection. An operator at the central station calls back the location and tries to validate the alarm. In common applications, these types of sensors can only provide binary information indicating the active state of an alarm state. The main problem with conventional alarm systems is that they are very prone to false alarms due to the deficiencies of existing technologies. False alarm statistics are persistent. Another problem with conventional alarm systems is that they need to be monitored in a way

I actively, which generally requires the use of an additional monitoring service that can be costly and does not substantially reduce the false alarm.

A patent application US2014375453A1 discloses a system for detecting intrusion attempts within a perimeter defined by a fence, including panels attached to columns, comprising a shock and / or vibration detection device that is connected to a remote station. Said system comprises at least one housing including at least one central processing unit CPU which is connected to at least one memory unit and to at least one shock and / or vibration detector and to at least one video communication bus, each carcass being autonomous and connected to another housing and / or at least one remote station for transmitting a computer file generated by the central processing unit when a shock and / or vibration is detected by RO 2015 00014 U1 by one of the hulls.

The main drawback of this solution is that it can not distinguish between accidental penetration into the perimeter and penetration for theft.

Also, International Patent Application WO2014013277A2 is a system for identifying, detecting and tracking objects, beings that exist in a space to be controlled. The system comprises a camera capable of converting images of a figure or texture, a device capable of scanning a ray, sonic or ultrasound space, and then converting the resulting data into a figure on a tactile display, a a device for converting the pictures, pictures from the cameras, a device for creating the outline of the object detected by rays, beams, ultraviolet, etc., and a device for measuring the speed of the objects / beings that move, exist or enter the said space . The system also contains an information processing device and the identification of objects / beings. After the reconnaissance process, the system informs by any wire or wireless means that can transfer images, sound, vibrations, text messages or voice and activates other systems and devices. The system according to the aforementioned international application, although it can accurately identify the form and object / entity within a monitored area, can not distinguish between accidental penetration into the perimeter and penetration for theft, is complicated and can not be mounted in hard-to-reach areas with large ground clearance, where people's access is difficult, costly or even impossible.

Also in order to prevent tampering, European patent application EP0271071A2, published on 15.06.1988, is known to be a technical solution for the monitoring of high voltage poles. According to the European patent application, at least one sensor on each pillar, to detect vibrations or movements. Sensor-connected is an evaluation unit which is connected by an amplification unit to a signal transmitting station disposed on the pole for the signals encoded in the evaluation unit. A central signal receiving station is connected to an alarm which is disposed in a central monitoring station. The main drawbacks of this solution are that it is necessary to use all appliances

batteries that are consumed over time, requiring an operator to move. 2 EN 2015 00014 U1

The technical problem solved by the invention relates to the installation and use for burglary purposes in locations in difficult-to-reach areas with large land unevenness where people's access is difficult to monitor real-time real-time oil wells.

The anti-burglary system according to the invention is characterized in that it consists of an anti-burglary monitoring subsystem located in the protected area and a fixed / mobile subsystem of processing the information received from the remote allied monitoring subsystem in which the anti-burglary monitoring subsystem located in the protected area, is made up of a presence sensor for detecting the persons entering the perimeter to be monitored, a metal housing housing in its interior a power and communication equipment, a transmitting antenna used with a radio emitter to transmits the event to an information processing subsystem, a projector designed to illuminate the monitored perimeter at night when the presence sensor and video camera are activated for event recording / shooting, all of which are mounted on a metal pole of a probes oil (not shown) to be monitored from the point of view of burglary; and wherein the fixed / mobile subsystem of processing information received from the remote monitoring subsystem comprises a receiving antenna and a receiver device mounted on a metal pole by means of a support and support support, at a distance or on a the mobile vehicle finding the information processing equipment, the receiving antenna and the receiving device to receive the signal from the transmitter and forward it to the information processing equipment.

According to a further aspect of the invention, a metallic housing is provided with a power and communication equipment made up of a bipolar fuse for powering the equipment mounted in the casing and the equipment mounted externally, a switching source having the role of supplying the supply voltage to the equipment and a switching source to charge a battery, the presence of 220Vac network voltage being signaled by a voltage signaling lamp, a timer that is a timer with a predetermined timed duration, recording both the video captured from the camcorder and the sound from the protected area via a microphone. 3 EN 2015 00014 U1

According to a further aspect of the invention, the information processing equipment comprises: a microprocessor block that interacts with the other blocks so as to identify the unique codes transmitted from the lenses, acoustically signal the event, display the target lens on a LCD display ; an LCD display block;

A record block on a card of the date, time of the event and the location where it occurred;

A multiplexer block that is a time base;

A decoder block;

Block block Slot for registration on a card of the date, time of occurrence and the location where it occurred;

A block of setting commands;

According to a further aspect of the invention, the equipment may be installed in both an enclosure and a mobile vehicle, and may be mounted in a housing provided with reset switches, an LCD display and some operating indicator LEDs, a receiver connector jack, a power jack, some time / date setting switches, and an IC card slot.

Advantages resulting from the application of the invention are: compact; is independent of the human operator; the data collected from the sensors is processed in an efficient way, so that minimum resources are needed; the information is provided so that it can be accessed remotely and the intruders can be traced in time; eliminates false alarms comparing theft; immediate integration into industry; low cost;

An embodiment of the invention will now be described with reference to Figures 1-4 which are:

Figure 1 is a general view of an anti-burglary system mounted in a location in hard-to-reach areas with large ground unevenness where the access of persons is cumbersome, expensive or even impossible, mounted in particular on an oil well according to the invention; COMf 4 RO 2015 00014 U1

Figure 2 is a block diagram of the supply equipment in the housing of the burglar system according to the invention;

Figure 3 is a schematic block diagram of an anti-burglary system according to the invention;

Figure 4 is a block diagram of the fixed / mobile subsystem of processing information received from the remote monitoring subsystem of the burglary system according to the invention;

Figure 5 is a block diagram of the remote information processing equipment of the anti-burglary system according to the invention;

Figure 6 is a front view of an apparatus for remote information processing of an anti-burglary system according to the invention;

Figure 7 is a rear view of the remote information processing equipment housing of the anti-burglary system according to the invention;

Figure 8 is a general view of the remote information processing equipment housing of the anti-burglary system according to the invention;

The anti-burglary system, according to Figure 1, mounted in a location in hard-to-reach areas with large pitching, where the access of the people is cumbersome, expensive or even impossible, mounted especially on an oil well according to the invention. consists mainly of a B-guard monitoring subsystem A located in the protected area and a fixed / mobile B subsystem of processing the received information from the remote monitoring subsystem A. 1

The anti-burglary monitoring subsystem A located in the protected area consists of a presence sensor 1 for detecting the persons entering the perimeter to be monitored, a metal housing 2 having inside a power supply and communication equipment E, an antenna 3 emission device used together with a radio transmitter 4 to transmit the event to an information processing subsystem B, a projector 5 designed to illuminate the monitored perimeter at night when the presence sensor 1 and video camera 6 are activated for recording / shooting the event.

them

All these devices are mounted on a metallic pole 7 of an oil well (not shown) to be monitored for burglary. Thus, the emitter 4, the camera 6, the projector 5 and the antenna 3 are fixed to the pole 20 20 000 000 U1 by means of a first support support 8. The presence sensor 1 is fixed to the post 7 by means of a second support support 9. In the metallic housing 2, as shown in Figure 2, the E power and communication equipment is located inside.

The equipment E consists of a bipolar fuse 10 for powering the equipment mounted in the casing 2 and the equipment mounted externally, a switching power supply 11 to supply the supply voltage to the equipment and a switching power supply 12 which is intended to charge a battery 13. The presence of 220Vac network voltage is signaled by the voltage signaling lamp 14.

The equipment E is provided with a timer 15 which is a timer with a predetermined timed duration. The timing is started when the present sensor 1 detects an intrusion into the protected space and simultaneously turns on the power of the video camera 6 and the IR projector 5. Simultaneously, via the transmitter 4, the radio is transmitted to the fixed / mobile B subsystem by the processing of the data of the objective.

The equipment E further comprises a recording device 16 for both the video images taken from the video camera 6 and the sound in the protected area via a microphone 17. The microphone 17 is mounted in the casing 2. With the transmitter 4 and the antenna 3 is transmitted radio to the fixed / mobile B subsystem of the information processing, all the video / audio recordings of the recording device 16.

According to the above, the power supply of the devices mounted in the housing 2 and comprising the power supply and communication equipment E and the devices mounted externally on the first support holder 8 and on the second supporting support 9 is makes it from the 220Vac network via the bipolar fuse, in two ways, as follows: 1. When there is voltage from the 220Vac grid, the first switching source 11 supplies the supply voltage to all devices and the second 12 in switching on the battery 13. 2. When the 220Vac power supply is interrupted, a switch 18 automatically switches the power supply directly from the battery terminals 13. The operating time of the battery-powered equipment varies depending on the capacity of the battery.

The operating voltage of the equipment E is 12VDC 6 RO 2015 00014 U1

An event related to burglary is transmitted to the fixed / mobile subsystem B by the information processing via the transmitting antenna 3 together with the radio transmitter 4.

The block diagram of the fixed / mobile B subsystem of processing the received information from the remote monitoring subsystem A of the anti-burglary system according to the invention is shown in Figure 4.

Subsystem B consists of a receiving antenna 19 and a receiver device 20 mounted on a metal pole 21 by means of a support and support support 22. Remote or on a mobile vehicle is the information processing equipment 23.

The receiving antenna 19 and the receiving device 20 are intended to receive the signal from the transmitter 4 and forward it to the information processing equipment 23.

The information processing equipment 23 contains several functional blocks and is shown in Figure 5, namely;

Block A1 is a microprocessor. Its role is to interact with the other blocks so that it identifies the unique codes transmitted from the lenses, acoustically signaling the event, displaying the lens in question on an LCD display;

LCD display block B1;

Block C1 recording on a card the date, time of the event, and the location where it occurred;

A block multiplexer D1 that is a time base;

An E1 block decoder;

A block F1 slot for the C1 block of registration on a card of the date, time of occurrence, and location where it occurred;

A G1 block for setting commands;

The signal transmitted from the lens is received by the receiving device 20 through the receiving antenna 19 and transmitted to the information processing equipment 23.

The device 23, depending on the code it receives from the receiver device 20, sounds the event generation and displays the occurrence of the event on the LCD display of block B1. At the same time, the A1 processor records on a block C1 the date and time of production as well as the location where it occurred. 7 RO 2015 00014 U1

Equipment 23 can be installed in both an enclosure and a mobile vehicle. It can be mounted in a housing 24 provided with reset switches 25, an LCD display 26 and some operating indication LEDs 27, see Figure 6. Also, the casing 24 further includes a receiver connection jack 28 , a power jack 29, a clock / date setting switch 30, and a card slot IC 31, see Figure 7 and 8.

The system according to the invention allows to use a number of different types of presence sensors 1 such as analog or digital and or video camera 6. Data collected from these sensors is processed in an efficient way, so minimal resources are needed. In addition, the information is provided in such a way that it can be accessed remotely and a real-time perimeter of interest can be automatically monitored.

The data packet is transmitted to the processor A1 of the processing apparatus 23, either via cables or a wireless device such as a GSM or GPRS antenna that allows the data to be transmitted as a UDP protocol (Datagram Protocol) via the Internet.

The data, in a preferred embodiment, contains specific data, pictures and sounds taken over by the camera 6, the presence sensor 1 and the microphone 17, a unique lens identifier. Additional data can be included about the location of the processing equipment 23, the date and time of reading the information (UTC time provided by the GPS antenna). Once the data is processed by the A1 processor, they are made available to an operator via the Internet or through another communication link. In the embodiment where the broadcasting antenna 3 and receiving antenna 17 are provided with a GPRS system, the data is transmitted remotely by a message that is transmitted electronically. The message may be an email or a sound or visual alert.

It should be noted that the anti-burglary system according to the invention can also be used for other purposes than oil wells.

8

Claims (4)

RO 2015 00014 U1 1. Anti-burgade system characterized in that it consists of an anti-burglary monitoring subsystem (A) located in the protected zone and a fixed / mobile subsystem (B) by processing the information received from the monitoring subsystem (A) at a distance, wherein the anti-burglary monitoring subsystem (A) located in the protected area comprises a presence sensor (1) for detecting the persons entering the perimeter to be monitored, a metal housing (2) (E), a transmitting antenna (3) used together with a radio transmitter (4) to transmit the event to the information processing subsystem (B), a projector (5) nighttime illumination perimeter monitored when presence sensor and video camera (6) for event recording / shooting are activated, all these devices mounted on a metal pole (7) of an oil well (not shown) to be monitored for burglary; and wherein the fixed / mobile subsystem (B) for processing the information received from the remote monitoring subsystem (A) comprises a receiving antenna (19) and a receiver device (20) mounted on a pillar 21) by means of a remote support and support (22) or a mobile vehicle which finds the information processing equipment (23), the receiving antenna (19) and the receiving device (20) having the role of receiving the signal from the emitter (4) and forward it to the information processing equipment (23). An anti-burglary system according to claim 1, characterized in that the power supply and communication equipment (E) consists of a bipolar fuse (10) for powering the equipment mounted in the casing (2) and the equipment mounted in a switching source (11) to supply the supply voltage to the equipment and a switching power source (12) to charge a battery (13), the presence of the 220Vac mains voltage being indicated by the lamp ( 14), a timer (15) which is a predetermined timer timer, a recording device (16) of both the video images taken from the video camera (6) and the sound in the protected area via a microphone (17). 9 EN 2015 00014 U1 A burglar alarm system according to claim 1, characterized in that the information processing equipment (23) contains: - a microprocessor block (A1) that has its role is to interact with the other blocks so as to identify the unique codes transmitted from the lenses , acoustically signaling the event, displaying the lens in question on an LCD display; - an LCD display block (B1); A block (C1) recording on a card the date, time of occurrence and the location where it occurred; A block (D1) multiplexer that is a time base; A block (E1) decoder; Block (F1) Slot for block (C1) recording on a card of the date, time of occurrence and the location where it occurred; A block (G1) setting commands. An anti-burglary system according to claims 1 and 3, characterized in that the equipment (23) can be installed both in an enclosure and a mobile vehicle and is mounted in a housing (24) provided with some switches (25) an LCD display (26) and some operating indication LEDs (27), a receiver connection jack (28), a power connector (29), a clock / date setting switch (30); and a slot (31) for inserting the IC card. io