RU2031445C1 - Protection signalling apparatus - Google Patents

Abstract

FIELD: protection systems. SUBSTANCE: apparatus provides different responsibility levers of distributed pickups in different channels in dependance upon their mounting conditions. Structure of vibrational pickups allows to enhanced reliability of operation of the apparatus. The apparatus is provided by means, allowing two modes of operation: a mode of noise suppression and a mode of maximally adjustable responsibility. EFFECT: enhanced reliability of the apparatus in conditions of significant vibrational loads of pickups, with a background of vibrational noise and at conditions of distributed surfaces, being protected, with different levels of vibrational disturbances. 1 cl, 10 dwg

Description

 The invention relates to security devices and can be used to protect cars, motorcycles, garages, doors, windows, balconies, safes.

 A device for preventing burglary and theft, intended, in particular, for automobiles. It contains a window control unit using a magnetic switch mounted near the window glass, a permanent magnet acting on the sensitive element in accordance with the state of the glass [1].

 There is also a signaling device that triggers when glass is broken, containing a sensor that is mounted on the glass and converts vibrations caused by external factors into an electrical signal, a signal transmission line from the sensor, a line installed in parallel with it to detect an open circuit, a filter for extracting specified components from the spectrum frequency of the sensor output signal, to the input of which a signal transmission line from the sensor is connected, an amplifier connected to the filter output by the input, raising the output signal level to level signal, connected to the amplifier output by the amplifier, the amplified signal conditioner into a square-wave signal, a noise reduction circuit connected to its output, which integrates the output signal of the driver and transmits only signals exceeding the specified level, an open circuit to which an open circuit for detecting an open is connected parallel to the breakage sensor, a signal amplifier in the line for detecting a break connected to its output, an output signal shaper connected by an output to the input of the formation circuit a pulse of a given duration, an alarm output circuit connected by separate inputs respectively to the output of a noise suppression circuit, with an output of an open circuit sensor, with an output of a pulse formation circuit of a given duration [2].

 The disadvantages of the prototype include the fundamental limited scope that applies only to the protection of windows, balconies, limiting the sensitivity level, low structural noise immunity in conditions of vibrational noise, which allows the prototype to respond only to a spectrum of significant disturbances such as shock, glass clink, while careful touching to protected surfaces go unnoticed, because of which there is no fundamental possibility of issuing a short warning alarm, Warning indicator follow-up and not have a lasting impact on the surrounding, in casual contact with the protected object.

 The aim of the invention is to increase the reliability of the device under conditions of possible significant vibrational loads on the sensors, increase the noise immunity and, accordingly, the sensitivity to attempts to penetrate against the background of vibrational noise and in the conditions of spaced protected surfaces with different levels of external vibrational disturbances, providing increased aesthetic efficiency in case of frequent accidental contacts with guarded objects, as well as the simplification of the transducer of the sensor signal to the enable signal alarm issuing schemes, combining the functions of its elements with the functions of the elements of the contact identification device of the host, which allows constructively simple to respond to attempts to select a host code.

 In FIG. 1 is a structural diagram of a security alarm device; figure 1 shows a sensor in section; in FIG. 3 shows a diagram of a converter of a signal from sensors to a comparator response signal; figure 4 is a diagram of a cliff sensor; figure 5 is a diagram of the block issuing an alarm; figure 6 - diagram of the control unit; Fig.7 is a diagram of a transmitter of the identification code of the host; in FIG. 8 shows a diagram of a receiver of a host identification code and a host of a host code decryption node; figure 9 is a diagram of a digital filter; figure 10 - diagram of the analyzer duration of frequency matches.

 The security alarm device (Fig. 1) contains a vibration sensor 1, signal transmission lines 2 from sensors 1, lines 3 installed parallel to it for detecting an open circuit, a filter 4, to the input of which signal transmission lines 2 from sensors 1 are connected, connected by an input to the filter output 4 the first amplifier 5 of the signal from the sensors, an open circuit sensor 6, to which lines 3 for detecting an open circuit are connected, connected in parallel with the open circuit sensor, a second signal amplifier 7 in lines 3 for detecting an open circuit, an output signal generator 8 connected to its output Ala, alarm output unit 9, connected by separate inputs respectively to the output of the open circuit sensor 6 and to the output of the pulse shaper 10, connected to the output of the output shaper 8 of the output signal amplifier 7 in lines 3 for detecting an open circuit, the control resistors 11 of line 3 for detection open circuit connected in parallel through the separation capacitors 12 to the input of the amplifier 7, and the amplifier 5 input connected through the separation capacitor 13 to the receiver 14 of the identification code of the host, communicating input th transmitter 15 identification code, the host, the control unit 16, detection unit 17, the accumulator 18, the comparator 19 output connected through a limiting resistor 20, an extension wire 21 and passed on at a convenient place to monitor LED 22 with power bus 23.

 The sensors 1 (figure 2), mounted on the surfaces of the protected objects, are made on the basis of a stereo-piezoelectric element 24, which has parallel connected interconnects leads halves that convert the vibrations of the element 24 in mutually perpendicular planes into an electrical signal installed inside having a removable roof 26 with an outer 27 and internal 28 cushion pads and a socket 29 for the LED 22 connected by an extension wire 21 with the output of the comparator 19 and made of a material with high contact sound conductivity, the housing 30 with the possibility of contact of the contact element 25 with the contact plate 31 on the inner surface of the housing 30, mounted on the end having a transverse brake plate 32, pivotally connected to the supporting element 33 on the inner surface of the housing 30 of the lever 34, pressed by the elastic element 35 and interacting with the cam 36 with an inclined the groove 57 of the paired mounting plate 38, having, at the edges, the keys 39, 40 extending outwardly of the housing 30, in contact with the pressing latch 41 and rigidly connected to the piston rod 42 42 a stuffy pump, the cylinder 44 of which has an inlet valve 45, as well as an exhaust valve 46, blocking the inlet of the sleeve 47, screwed into the cylinder head 44, with damper holes 48, attached at the other end to the nozzle of the air bag 49, located in the recess 50 on the inner surface of the housing 30 under the transverse brake plate 32 of the lever 34.

 The detector block 17 (Fig. 3) is made on three diodes 51-53, the first of which is connected to the input of the block by a negative output, and the mass with a plus, and the second and third positive outputs - with the input of the block, and the minus - with its corresponding outputs. The drive 18 is made of two conductive lines 54 and 55, the first of which directly connects its first input to the second output and has a first resistor 56 connected between it and a zero potential terminal and connected in series with a smoothing capacitor 57, a first switch 58, a second switch 59, and a third switch 60, a second capacitor 61, a second resistor 62, a resistor voltage divider 63.

 The breakage sensor 6 (Fig. 4) is made of a group of resistors 64, capacitors 65, Schmidt triggers 66 and an OR element 67.

 The alarm output unit 9 (Fig. 5), configured to switch to the preliminary short alarm operation mode, contains an internal random response suppression circuit and consists of the first to eleventh single vibrators 68-78, the first and fourth elements And 79-82, the first-fourth elements OR 83-86, the inverter 87, the controlled generator 88, the first-third triggers 89-91 Schmidt, the amplifier 92 of the sound signaling element 93 and the light signaling element 94, the radio transmitter 95 and the try signal receiver 96 roniknoveniya integrating chains 97-99, resistors 100, 101, integrating circuit 102, the first through the sixth switches 103-108 and OR-NO element 109.

 The control unit 16 (Fig. 6) consists of the stored objects installed externally in places accessible for touching, a pair of code buttons 110 with contacts normally closed to ground, located among a group of camouflage buttons 111, which also have contacts that open to ground, from the toggle switch 112 of the power bus, which is located as a group of camouflage toggle switches 113 inside the guarded object, from the stabilizer 114 connected to the input through the toggle switch 112 of the power bus with a constant voltage source and the power bus of the alarm output unit 9, and the output ohm with a common power bus for all other elements of the device, as well as from the first to sixth elements OR 115-120, the first to fourth elements AND 121-124, the first to third elements AND 125-127, the first 128 and second 129 triggers, element 130 interchanges, host code decryption unit 131 with an external toggle switch 132 of the power bus, first 133 and second 134 interference-protected single-vibration units, first 135 and second 136 Schmidt triggers, from the starting resistor-capacitive chain 137, initial installation unit 138, from the first 139 and second 140 integrating chains, the first of which ich has a charging resistor 141, and the second a charging diode 142, from the first and third groups 143-145 of integrating circuits that give a pulse of voltage increasing to the level of logical "1" along the rising edge of the input voltage, as well as from the fourth group 146 of forming integrating circuits, issuing an impulse of voltage falling to the level of a logical "0" along the falling edge of the input voltage. The inputs of the first group 143 chains are connected to the contacts of the group of camouflage buttons 111, and the outputs are connected to the corresponding inputs of the first element OR 115, the output connected to the first input of the second element OR 116, the second input connected to the output of the first element AND 121, the first and second inputs of which the second group 144 chains are connected with the contacts of the pair of code buttons 110 and, respectively, with the S-input of the first trigger 128 and the first input of the second AND-NOT element 126 and with the first inputs of the second 122, third 123 elements I.

 The host identification code transmitter 15 (Fig. 7) is made of the first and fourth generators 147-150 having an external setting of the generation frequency, AND elements 151, 152, OR element 153, trigger 154, transistor switch 155, stabilizer 156 and contact plug 157, in which the first contact 158 is connected to the input of the stabilizer 156 and to the power input of the transistor switch 155, and the second 159 to the "mass" of the transmitter, the output of the stabilizer 156 is connected to the power bus of the transmitter elements.

 The host identification code receiver 14 (Fig. 8) contains a contact plug 160 and a limiting resistor 161. The first contact 162 of the contact plug 160 is connected through a resistor 161 to the power bus of the alarm device, and through a capacitor 13 to the input of the first amplifier 5, and the second contact 163 connected to the ground of the alarm device. The control unit decryption unit 131 comprises bandpass filters 164, comparators 165, 166, a trigger 167, a digital filter 168 configured to externally adjust the passband and connected by an output to the input of the first analyzer 169 of the frequency coincidence duration, the output of which is connected to the input of the second digital filter 170 also configured to externally adjust the bandwidth and connected by the output to the input of the second analyzer 171, the duration of the frequency matches, the output of which is the output of the decoded node a.

 The digital filters (Fig. 9) are made of the first and third single-vibrator 172-174 and the element And 175. To the input of the digital filter are connected the direct input of the start of the first single-vibrator 172 and the inverse start input of the second single-vibrator 173, the output of which is connected to the inverse input of the start of the third single-vibrator 174 , the output associated with the first input of the And 175 element, the second input of which is connected to the output of the first one-shot 172. The inputs of the initial installation of the one-shots are connected to ground, and the output of the And 175 is the output of a digital filter.

 Frequency matching duration analyzers (FIG. 10) contain AND 176-177 elements, single vibrators 178-179, comparator 180, transistor switch 181, capacitor 182, resistor 183, resistive circuit 184, charging resistor 185 and diode 186, Schmidt trigger 187.

 The alarm device operates as follows.

 A knock arising from an attempt to penetrate, the rattle is converted by the sensors 1 into an electrical signal, the high-frequency components of which are suppressed by the filter 4, after which the signal is amplified by the amplifier 5. In the detector unit 17, the output signal of the amplifier 5 is rectified and issued through two identical parallel outputs to the inputs of the drive 18, where noise statistics of the current vibrational situation are summarized and stored for a while at the second input, and its current changes are monitored at the first input. The operation of the comparator 19, expressed by the fall of its output signal to the logic level “0”, at which the LED 22 is lit, occurs when the voltage corresponding to the current vibrational situation exceeds the voltage level at the first output of the statistical drive 18 corresponding to the average statistical voltage at the second output of the statistical drive 18 level of vibrational environment. The response signal of the comparator 19 is fed to the third input of the alarm output unit 9, which, after a short delay, issues an alarm for a predetermined period of time. This takes place in the case of the noise reduction mode, in the maximum adjustable sensitivity mode, which is used, for example, to protect vehicles installed at night in a place squeezed from sources of vibration, the operation occurs when the specified level of vibration perceived by sensors 1 is exceeded. To block the alarm device, the owner can use an external transmitter 15, the signal of which through the receiver 14, the capacitor 13 and the amplifier 5 is supplied to the first input of the control unit 16. If there is a code match, the alarm output unit 9 is turned off for a while. This time ensures the penetration of the owner into the zone of the protected object and its quick disconnection of the power of the alarm device. In the event of a break in the signal transmission line from the sensors 1 and the lines 3 laid along them, a breakage sensor 6 is activated to detect a break. Its output signal is supplied to the first input of the alarm output unit 9, causing it to instantly trigger. The operation of the comparator 19 actuates the alarm output unit with a slight delay necessary for recognizing the host code, which ensures operation when trying to select the host code and eliminates the short-term alarm when the host disconnects. Since the amplified code signal causes the comparator 19 to operate, interference, especially frequent when using mains power, causes a short-term blocking of the device, if the switching of the device elements occurred simultaneously with the interference.If the alarm was triggered before the interference, then its time cycle is not violated. Using the adjustment resistors 11, sensitivity levels are set for the channels of the separated sensors 1. For example, in the case of simultaneous protection of windows and the apartment’s door, the sensitivity of the channel with sensor 1 on the door installed at the lock should be much lower than the sensitivity of channels with sensors 1 on the windows, where interference much smaller and more likely to penetrate carefully through the open window.

 The sensor 1 (figure 1), made in the automotive-motorcycle version, is brought into operation by pressing the key 39 until it stops, while the air pumped out of the cylinder 44 inflates the air bag 49. At the same time, the lever 34, sliding the cam 36 along the surface of the inclined groove 37 of the paired mounting plate 38, pressed by the elastic element 35, draws closer and makes contact with its brake plate 32 with the surface of the air bag 49, while the slow, braking movement of the lever 34, the air is squeezed out damper holes 48. As a result, the contact element 25 of the contact pad 31 is softly touched. In the working and in the initial positions, the paired installation plate 38 is semi-rigidly fixed by the pressing clamp 41. The sensor 1 is turned off by pressing the key 40, while air is pumped into the cylinder 44 , and the lever 34 is rotated and abuts against the internal shock-absorbing cushion 28. In conditions of external vibration, the sensor 1 should be stored downward with the external shock-absorbing cushion 27. In the operating position, the sensor 1 is pressed as tightly by the body to the surface of the protected object.

 The drive 18 (figure 3) has two modes of operation - noise reduction and maximum adjustable sensitivity. Switching is done using a three-section switch. In the noise canceling mode, its first and second outputs are connected respectively to the second and first inputs and, respectively, storage 61 and smoothing 57 capacitors are connected to them. In the mode of maximum adjustable sensitivity, the first output is disconnected from the input and connected to the midpoint of the resistor voltage-regulating circuit 63, and the smoothing capacitor 57 is disconnected from the second output. In this case, the maximum sensitivity of the signaling device specified by the resistor voltage-regulating circuit 63 takes place.

 In the noise canceling mode, the average voltage level corresponding to the vibration background is established on the storage capacitor 61, which significantly reduces the likelihood of false positives of the comparator 19. During rain, when driving near a guarded vehicle, with sharp vibration disturbances, the voltage on the first conductive line 54 increases the voltage level by the second conductive line 55 and the comparator 19 is triggered. In the sensor 6 break (4) in the case of a break in line 3 to detect a break and the forming resistive-capacitive chains give impulses to Schmidt triggers 66 and a single impulse appears at the output of the OR 67 element, indicating a break.

 The alarm output unit 9 (FIG. 5) has several operating modes defined by the first to sixth switches 103-108. In the lower position of the first 103 and second 104 switches, the operation mode is set with a delay for the host to enter the zone of the protected object and the subsequent power off. Moreover, if the second switch 104 is in the upper position, then this is a quick response mode to external disturbances with a short delay in identifying the host code. In the automotive version, in these two modes, an alarm is issued by a sequence of beeps for a predetermined time, which is acceptable when the car is far from the owner and there are beeps from a passing vehicle. But if the car is left in the zone of frequent casual contacts with passers-by or where a long alarm is undesirable for others, the preliminary short alarm mode is more convenient after which a repeated external disturbance is analyzed for a specified period of time, and if it occurs then a continuous alarm sounds. In this mode, the switches 103, 104 are set to the upper position. The third switch 105 sets the nature of the alarm in the lower position - it is intermittent, and monotonous in the upper one. The fourth 106 and fifth 107 switches optionally switch sound and light alarm elements, the sixth switches 108 includes a radio link with the host. The alarm circuit operates as follows.

 When the comparator 19 is activated, the first one-shot 68 is launched, giving a delay in identifying the host code. On the trailing edge of the output signal of the first one-shot 68, the second one-shot 69 is triggered, through the first And 79 element, the first 103 and second 104 switches in the lower position and the OR element 84 starts the seventh one-shot 74 and blocks the receipt of subsequent start-up signals the eighth one-shot 75. The seventh one-shot 74 that worked starts the generator 88 with a controlled start, and in accordance with the position of the third switch 105, the signal from the output of the seventh one-shot 74 or from the output of the generator 88 with a controlled start through the fourth element OR 86, the fourth element AND 82, the charging resistor 100 of the first integrating resistor-capacitive circuit 98, the second Schmidt trigger 90 is fed to the input of the amplifier 92 that generates an alarm, and through the sixth one-shot, 73, the charging resistor 101 of the second integrating circuit 99, the third Schmidt trigger 91, the sixth switch 108 - to the second input of the radio transmitter 95. Moreover, if the second switch 104 is in the upper position, then the pair of the seventh 74 and eighth 75 one-shots is delayed by the chain of the ninth 76 and the tenth 77 single vibrators and ensuring the penetration of the owner into the object and its quick power off. In the upper position of the first 103 and second 104 switches, a pair of the third 70 and blocking the subsequent triggering signals of the fourth 71 single vibrator is triggered, a short signal from the output of the third single vibrator 70 through the OR 86 element triggers an alarm, at the end of it the fifth single vibrator 72 sets the time expectations of repeated external disturbance. If it took place, then through the AND 80 element and the OR 84 element, a continuous alarm is triggered, which is also triggered when the third and fourth inputs of the OR 84 element arrive, respectively, an open signal and an alarm enable signal in case of an incorrect shutdown attempt. The internal random response suppression circuit operates as follows.

 When any of the first to tenth single vibrators 68-77 is triggered, the output of the OR 85 element displays a pulsed single signal, which, if there is interference in the power bus or a blocking signal of a given duration, starts the eleventh single vibrator 78 through the AND 81 element, blocking elements through the OR-NOT 109 element And 79 and 82, and through the inverter 87 - the first to tenth single vibrators 68-77. The same thing happens when the host recognition signal or the initial setup signal arrives at the OR element NOT 109. Integrating chains 98, 99 and Schmidt triggers 90, 91 are used to eliminate short-term interference switching of the amplifier 92 and the radio transmitter 95.

 The control unit 16 (Fig.6) operates as follows.

 When the power is turned on, the initial installation unit 138 gives a logical “1” signal to the third output of the control unit 16 for the period of time necessary for the owner to leave the zone of the protected object, after which the logical level “0” is set at its output, which allows the unit 9 to work the alarm is released and through the OR element 119, the first one-shot 133 releases, through the first integrating chain 139 and the second Schmidt trigger 136, the host recognition signal to the second output of the control unit 16 blocking the operation of the block you giving an alarm for the time necessary for the owner to enter the zone of the protected object and quickly turn off the power. The first one-shot 133 is triggered through an AND-NOT element 125, or through an isolation element 130 from the output of the decryption unit 131, to the first input of which an identification signal from the external transmitter and amplifier 5 is received. The host code is dialed on a pair of code buttons 110. The OR 116 element generates a pulse signal to turn on the alarm, which is issued through the OR element 116 and when you press or break any of the mask buttons 11 or during breaks and any switching of the camouflage toggle switches 113. In the formation of a pulse signal to turn on the alarm the first 143, third 145 and fourth 146 forming chains are involved, OR elements 115, 117 and the AND-NOT element 127, The first 128 and second 129 Schmidt triggers are reset through the OR element 118 when there is interference in the mains, when the signal arrives locks when a host recognition signal is issued and when an alarm device is incorrectly turned off. In the case of the operation of the first one-shot 133 simultaneously with the arrival of the blocking signal or with the appearance of interference in the supply network through the OR element 119, the AND element 124, the OR element 120, and also through the second integration circuit 140 with the charging diode 142, the first Schmidt trigger 135 and the second one-shot 134 a reset signal is generated for the first one-shot 133. The first integrating circuit 139 with a charging resistor 141 and the second Schmidt trigger 136 are used to suppress short-term interference signals of the operation of the first one-shot 133. General about the alarm device is turned off by a power bus toggle switch 112.

 The external transmitter 15 (Fig. 7) begins to work after its contact plug 157 and the contact plug 160 of the receiver 14 are connected. In this case, power is supplied to the stabilizer 156, and the elements of the external code signal transmitter 15 begin to work - the frequency of the fourth generator 150 divides the trigger 154, alternately switching element And 151 and 152, the carrier frequencies to which are separately supplied respectively from the first 147 and second 148 generators. Packs of alternating carrier frequencies at the output of the OR element 153 are interrupted with a frequency of generation of the third generator 149. Transistor switch 155 provides modulation on the power bus.

 In the host code decryption unit 131 (Fig. 8), the modulated code signal is fed through the capacitor 13 to the input of amplifier 5, amplified, and fed to the inputs of a pair of bandpass filters 164, tuned separately to the frequencies of the first 147 and second 148 generators. When the frequencies coincide, a constant voltage appears at the outputs of the bandpass filters, which antiphase pulsates and leads to the successive operation of the comparators 165, 166, which in turn switch the trigger 167. The response frequency of the trigger 167 is analyzed by the first digital filter 168, which is tuned to the switching frequency of the trigger 154. With a sufficiently long and the monotonic nature of the switching of the trigger 167 at the output of the first analyzer 169 the duration of the frequency matches the signal appears logical "1". Similarly, a pair of the second digital filter 170 and the second analyzer 171 duration of frequency matches.

 The digital filter (Fig.9) acts as follows.

 On the trailing edge of the input unit signal, a second one-shot 173 is launched, the pulse duration of which is adjusted to the length of the pause between the input pulses. At the end of its output pulse, the third one-shot 174 is started, and on the rising edge of the input pulse, the first one-shot 172 is started. When the frequency coincides, a single coincidence signal appears at the output of the And 175 element.

 The analyzer duration of frequency matches (figure 10) acts as follows. One of the pulses from the output of the digital filter through the element And 176 starts the first one-shot 178, which sets the pause analysis of frequency matches. During this pause from the output of the And 177 element, a total voltage is formed on the capacitor 182, which is determined by the frequency and duty cycle of the recharging pulses. In the case of an optimal frequency match, the capacitor 182 manages to charge up to the response level of the comparator 180. At the end of the pause of the frequency coincidence analysis, the second one-shot 179 is activated and the bit transistor switch 181 removes the voltage from the capacitor 182, after which a new cycle is started at the next input pulse.

 The positive qualities of the proposed alarm device are its wide scope, the simplicity of the signal converter, a large selection of operating modes, the combination of the elements of the sensor signal converter with the elements of the host recognition device, which makes it possible to constructively respond to attempts to select a host code, as well as increased structural reliability of the sensor.

Claims (1)

 A SECURITY ALARM DEVICE, comprising a vibration sensor, some of whose outputs are connected to the signal transmission line, a filter, the output of which is connected to the input of the first amplifier, other outputs of the vibration sensor through the open circuit of the open circuit are connected to the corresponding inputs of the open circuit, the output of which and the output of the output signal shaper through the pulse width generator is connected respectively to the first and second inputs of the alarm output unit, a second amplifier, characterized in that, in order to increase it to features, a comparator, a drive, a detection unit, a separation capacitor group, an isolation capacitor, a control unit, a master identification code transmitter, a master identification code receiver, a group of additional sensors, adjustment resistors for the number of protected objects and a limiting resistor connected in series, one output which is connected to the power bus, the first extension wire, LED and the second extension wire combined with the output of the comparator and connected to the third the alarm output unit, the fourth, fifth and sixth inputs of which are connected respectively to the first, second and third outputs of the control unit, the outputs of the signal transmission lines of each sensor through the corresponding adjustment resistor are connected to the filter inputs, the output of the first amplifier is connected to the detector input, the first and the second outputs of which are connected to the drive inputs of the same name, the first and second outputs of which are connected respectively with the direct and inverse inputs of the comparator, the output of the receiver of the identification code is ho Zyain through a separation capacitor is connected to the input of the first amplifier, the output of which and the output of the pulse width former are connected respectively to the first and second inputs of the control unit, one wire of each break detection line through the same separation capacitor of the group is connected to the input of the second amplifier, the output of which is connected to the input of the driver output signal, vibration sensors are installed on the surface of protected objects and contain a stereo piezoelectric element, a lever, an elastic element, a supporting element nt, cam, contact pad, pressing clamp, vibration sensor housing has a removable cover with external and internal shock absorbing pillows and a socket in which the LED is installed, stereo piezo element leads are vibration sensor conclusions, stereo piezoelectric element contact is able to interact with the contact pad on the inner surface of the housing , the lever is equipped with a brake plate, pivotally connected to the support element and kinematically connected to the elastic element and by means of a cam kinematically and connected to the inclined groove of the paired mounting plate, on both sides of which are located on the outside of the housing keys associated with a pressing catch, the paired mounting plate is connected to the piston rod of the air pump, the cylinder of which has inlet and outlet valves and in which a sleeve with damper holes is located, connected to the nozzle of the air bag placed in the recess of the inner surface of the housing under the brake plate of the lever, the detector unit contains a first, second and third diodes, cathodes of the latter are the first and second outputs of the detector unit, the anode and cathode of the first diode are combined and are the input of the detector unit, the anode of the first diode is connected to the zero potential bus, the drive contains switches, capacitors, resistors and a resistor voltage divider, the movable contact of the first switch is connected with the first output of the first resistor and is the first input and second output of the drive, the fixed contact of the second switch is the second input of the drive, the movable contact connected to the first terminal of the second resistor and to the first fixed contact of the third switch, the second fixed contact of which is connected to the adjustment terminal of the resistive voltage divider, the fixed contact of the first switch is connected to the first terminal of the first capacitor, the movable contact of the third switch is connected to the first terminal of the second capacitor and is the first drive output, the second terminals of resistors and capacitors and one terminal of the resistive voltage divider are connected to the bus zero about potential, the open circuit contains groups of resistors, capacitors, Schmidt triggers and an OR element, the output of which is the output of the open circuit sensor, one output of the same name resistor of the first group is connected to the first output of the same name resistor of the second group and connected to the input of the same name via the Schmidt trigger OR element, the second terminals of the same name resistors of the first and second groups are connected respectively to the zero potential bus and to the power bus connected to the first terminals third group of storages, the second conclusions of which and the first conclusions of the first group of resistors are the inputs of the open circuit sensor, the alarm output unit contains Schmidt triggers, anti-noise single-vibration units, AND and OR elements, an inverter, a radio transmitter and a radio receiver, switches, a controlled generator, an audible alarm element , light signaling elements and an amplifier, the first outputs of which are connected to the sound signaling element through the first key, the second outputs are connected to the parallel connection through the second key To the light signal elements, the first inputs of the first and second OR elements are the first and second inputs of the block, the input of the first Schmidt trigger, the second input of the first OR element, the first and second inputs of the third OR element are the third to sixth inputs of the block, the output of the first Schmidt trigger is connected with the inverse input of the first noise-protected one-shot unit, the output of the third element OR - with the first inputs of the first and second elements AND and through the inverter - with the direct inputs of the first, second and third unprotected single-vibration blocks and the first inputs from the fourth to tenth noise-protected single-vibration blocks, the output of the first noise-protected single-vibration block is connected to the inverse input of the second noise-protected single-vibration block, the direct output of which and the inverse output of the eighth noise-protected single-vibration block are connected to the second and third which is connected to the inverse output of the sixth noise-protected single-vibrator unit, the output is connected to a movable the contact of the first switch, the first fixed contact of which is connected to the second inputs of the seventh and eighth noise-proof single-vibrator blocks and is connected to the power bus through the first resistor, the output of the seventh noise-proof single-vibrator block is connected to the first inputs of the third AND element and the fourth OR element, the output of which is connected to the second input the second element And, the output of which through the first integrating chain is connected to the input of the second Schmidt trigger, the output of which is connected to the combined input amplifier and the second input of the tenth noise-proof single-vibrator block, the output of which through the second integrating circuit is connected to the input of the third noise-proof single-vibrator block, the output of which through the second switch is connected to the input of the radio transmitter through a radio channel connected to the radio, the inverse output of the seventh noise-protected one-vibrator block anti-interference single-vibration unit, the output of which is connected to the second input of the third element And and through the third integrating chain - to the same input of the fifth OR element, the output of which is connected to the first input of the fourth AND element, the output of which is connected to the input of the eleventh noise-proof single-vibrator unit, the output of which is connected to the third input of the third OR element, the power bus is connected through the fourth integrating chain to the second input of the second element And, the output of which is connected to the second input of the fourth element And, the second fixed contact of the first switch is connected to the first movable to a contact of the third switch, the first and second fixed contacts of which are connected to the third input of the first OR element, the output of the fourth noise-proof single-vibration unit is connected to the inverse input of the third noise-resistant single-vibration block, the output of which is connected to the second movable contact of the third switch, the third fixed contact of which is connected to the second input the fourth noise-proof single-vibrator unit and through a second resistor with a power bus, the output of the third element And is connected to the fourth input of the first OR element, the output of which is connected to the second inputs of the fifth and sixth noise-proof single-vibrator blocks, the output of the fifth noise-proof single-vibrator block is connected to the first fixed contact of the fourth switch and through a controlled generator connected to the second fixed contact of the fourth switch, the movable contact of which is combined with the second input of the fourth OR element, the control unit contains a group of code and camouflage buttons installed on protected objects in places accessible for touching, stabilizer, power key, camouflage power keys, elements OR, AND and AND - NOT, triggers, noise-proof single-vibration units, decoupling element, decryption unit, integrating circuits and initial installation element, stabilizer with one terminal via a key the power is connected to a constant voltage source, the other terminal is connected to the zero potential bus, one of the camouflage and code buttons and camouflage keys are connected to the zero pot bus ncial, the other conclusions of the camouflage buttons through the corresponding integrating chains are connected to the inputs of the same OR element, the output of which is connected to the first input of the second OR element, the other outputs of the code buttons are connected through the integrating chains to the inputs of the first AND element, the first input of which is combined with C- the input of the first trigger and the first input of the first AND element is NOT, the second input is combined with the first inputs of the second and third AND elements, the output of the first of which, the outputs of the first AND element , the third OR element, the second AND element - are NOT connected respectively to the second, third and fourth inputs of the second OR element, the output of which is connected to the first input of the fourth OR element and is the first output of the block, the second input of the fourth and first input of the fifth OR element through the corresponding integrating the chain is connected to the power bus, one of the conclusions of the camouflage power-off keys is connected to the zero potential bus, the second conclusions are connected through the integrating chains of one group to the inputs of the third OR, through the integrating chains of another group - to the inputs of the second element AND - NOT, the output of the first noise-protected single-vibrator block is connected to the first input of the fifth element OR, the output of which is connected to the first input of the second noise-proof single-vibrator block, the direct output of which is combined with the first input of the fourth element And through the corresponding integrating chain it is connected to the input of the first Schmidt trigger, the output of which is the second output of the block and connected to the third input of the fourth OR element, the second input of which is the second input of the block and is connected to the second input of the fifth element OR, the output of which is connected to the second input of the fourth element And, the third input of which is connected to the cathode of the limiting diode through the second one-shot and the corresponding integrating circuit, the anode of which is connected to the inverse output of the second one-shot the second input of which is connected to the output of the third AND element - NOT, the first input of which is connected to the output of the first AND - NOT element and the output of the isolation element, the input of which is connected the output of the decryption node, the first and second inputs of which are the first and second inputs of the block, the output of the first trigger is connected to the second input of the And element, the output of which is connected to the S-input of the second trigger, the output of which is connected to the second input of the first AND element - NOT, the fourth output the OR element is connected to the R-inputs of the first and second triggers, the inverse output of the first trigger is connected to the second input of the third AND element, the output of the initial setting element is the third output of the block, the host identification code transmitter contains nerator, elements OR - AND, trigger, transistor switch, stabilizer and contact plug, the first contact of which is connected to the stabilizer and the output of the transistor switch, the second is connected to the zero potential bus, the stabilizer output is connected to the power bus, the outputs of the first and third generators and trigger are connected through the first AND element with the input of the OR element, whose output is connected to the input of the transistor switch, the outputs of the second and third generators and the inverse trigger output are connected to the input of the second AND element, the output of the fourth the nerator is connected to the C-input of the trigger, the D-input of which is connected to its inverse output, the receiver of the host identification code contains a limit resistor and a contact plug, the first contact of which is connected through a limit resistor to the power bus and to one output of the isolation capacitor, the second contact is connected to the zero potential bus, the decryption unit of the control unit contains comparators, a trigger, digital filters, frequency coincidence duration analyzers, bandpass filters, the inputs of which are the input to For decryption, the outputs through the comparators are connected to the inputs of the trigger, the output of which is connected through a series-connected first digital filter and frequency coincidence analyzer and a second digital filter connected to the input of the second frequency coincidence duration analyzer, the output of which is the output of the decryption unit, the digital filters of which consist of noise-protected single-vibrator blocks of the element And, the output of which is the output of a digital filter, the inputs of the first and second noise-protected single-vibrator locks are the input of the digital filter, the outputs of the second and first noise-protected single-vibration blocks through the third noise-protected single-vibration block are connected to the inputs of the And element, each analyzer of the duration of frequency matches consists of the elements And, the noise-protected single-vibration blocks, a comparator, a transistor switch, a diode and resistors, the first inputs of the first and the second elements And are the inputs of the analyzer, the output of the first element And is connected to the input of the first noise-protected single-vibrator unit, the output to which is connected to the second input of the second element And through the second noise-proof single-vibrator block with the input of the transistor switch, the inverse output of the first noise-protected single-vibrator block is connected to the second input of the first element And, the outputs of the initial installation of single-vibrators are connected to the zero potential bus, the output of the second element And through the first resistor and the diode is connected to the input of the comparator connected to the output of the transistor switch and one terminal of the capacitor and the second resistor, the second terminals of which are connected us to the bus of zero potential, the inverting input of the comparator is connected to an adjustment terminal of the resistor connected to the power bus, the comparator output - to the input of Schmitt trigger whose output yalyaetsya output analyzer.

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