SU435547A1 - AUTOMATIC CONTROL POINT - Google Patents

Description

The proposed automatic checkpoint (AKPP) can be used on the subway to pay for the passage of passengers or entry to various entertainment venues.

In the known automatic checkpoints, the mechanical device for accumulating coins before passing through the automatic transmission creates a pause at each successive passage through the control beams, since to allow the passage of the next passenger through the automatic transmission of the next passenger, the full cycle of previous passengers must be completed. This reduces the bandwidth of the device. In addition, the known automatic transmissions do not have a safety device and, in certain situations or logical manipulations, allow the passenger to pass through the automatic transmission without paying the fare.

In the proposed automatic transmission, these shortcomings are eliminated.

It is safer in operation and more convenient to operate. The automatic transmission consists of two bollards (or more depending on the number of aisles), installed on both sides of the aisle with photo sensors located on both sides of the aisle to control the passage and the sash prohibiting passage through the automatic transmission . On the right..of the passage in the upper end part of the pedestal there is a receiving opening for

fare payment with a coin return button, a return bowl and an alarm light display. For convenience of indication, the light signaling panel is additionally tanned in the upper 5 part of the bollard at the exit to the right.

The passage through the automatic transmission is made after the fare is paid, i.e. the coin is lowered into the receiving opening. Instead of a coin acceptor of a known design, various devices can be installed to control the presented pass cards with a code code, for example, for seasonal travel. FIG. 1 shows an electrical circuit diagram of an automatic transmission device that contains a control unit of coin 1, amplifier 2, control unit of output 3, protection unit 4, memory block 5, switch unit 6 of the light panel, amplifier 7, counter amplifier 8,

0 counter 9, photosensors 10-13, signal lamps and block 20 for turning on the stitch mechanism.

FIG. 2 shows two pedestals for a single automatic transmission pass with the left side shield removed in general, where: a 21-fare receiving opening; 22 - bent coin return button; 23 is a window for returning coins; 24-bin for coins (refers to the passage to the left of the one shown); 25 is an electrical unit and 26 is a left wing.

The stool for the rest of this passage, the right sash, the sash actuator electromagnet 27, the electromagnet ii8 the right sash latch and the illuminator are located in the right bollard with a similar arrangement.

The scheme of the CibOpOK of a tour in aolo, Kenny, which is not authorized to pass, is shown in FIG. 3, where it is indicated: 2b - left turnstile; 29 - return spring; oi - limit switch; 51-plate retainer; 32 is a lock electromagnet and 63 is a shutter actuator electromagnet.

The diodes in the device are made on transistors.

Automatic works as follows.

When power supply is supplied through switches 34 to the block of turning on the mechanism of the valves 20, the device elements are reset: the program start generator: trials 55 and bb are excited, triode 37 is open and triodes 38 and o9 are closed, the amplifier 40 is amplified by 2 photosensors open, triodes 41 and 42 turn on the leaf relay are closed, and relay 43 is de-energized, the triode is ± 4 memory blocks closed, the triode 45 is open, the triodes 46 and 47 of the output control unit 3 are open, the triode 48 of the protection unit is open, the triodes 49 and 50 memory block 5 open, triode 51 is closed, triodes 52-54, 56-58 and 60 open , and triodv 55 and 59 zakvv1tv1. The periods 61 and 62 of the switching unit 6 are open. Red light 14-16 passage forbidding boards on Triode 63 is closed; green passage lamps 17-19 are off. Triodes 64 and 65 of the damper of the input channel are open, the electromagnet 66 is on (the flap is open). Triode 67 amplifier 8 counter is closed. Photo sensor backlight included. Photo sensors 10-13 open. Electromagnets 32 and 27 (sash actuators) and 33 and 28 are de-energized HBI, sashes are open.

When coins enter the receiving opening 21, it in free fall closes the inductive sensor ID (the sensor is set so that at the moment of inductive field completely overlapping resonance occurs with the generator frequency, and therefore the voltage amplitude on the secondary winding of the generator circuit increases ). With an increase in the voltage plus on the basis of triode 37, the latter closes, triode 38 turns off and the pulse closes triode 60, the key of the first stage of the block. The trigger (triodes 58 and 59) overturns and turns on the light board switching unit 6. Triodes 61 and 62 are closed and extinguish 14–16 KpacHBie lamps, and triode 63 is open and turn on green lamps 17–19, allowing passage through the automatic transmission.

When turning off the lamps 14–16 minus the supply voltage of these lamps through their filaments and diode 68 is applied to the base of triode 40, the inclusion of the amplifier 2 photosensors is prohibited. The triode unit 39 of unit 1 and the triodes 67 of amplifier 8 are opened and include a counter 9, which counts the flow of a coin into the bunker of the automatic transmission. When passing through the automatic transmission, the passenger exits the photosensors 12 and 13, which are uncorrected, the latter are closed and the triodes 46 and 47 of the block 3 are closed, the triode 44 is opened, the triode 45 is closed. The triode collector 44 connected to the memory reset keys (triodes 49, 53, and 57) receives a signal to reset the memory, and the trigger (triode 60, 61) returns to its initial state (if the memory of block 5 was detected in the memory of block 5) only one coin). Upon the arrival of triode 59 to the initial state, the circuit of block 6 also returns to the initial state and switches the light panel. After the passenger leaves the area of the photo sensor 12 and 13, the elements of unit 3 are returned to the initial state, and the automatic transmission is ready for the next passenger to skip.

Block 5 allows you to memorize three additional incoming coins to pay for travel. With an increase in the number of us coins, the number of filled coins can be increased.

The circuit consists of three triggers assembled on a parallel circuit and reset circuit in a sequential order. When three coins immediately enter the automatic transmission, memory triggers are switched on in turn: from the first coin the trigger assembled on triodes 60 and 61 through the key circuit on triode 62, from the second coin trigger on triodes 54 and 55 through the key circuit on triode 56 and from the third Trigger coins on triodes 50 and 51 through triode 52. When passing through automatic transmissions, these triggers are reset in reverse sequence through key circuits on triodes 49, 53 and 57. When all memory cells are turned on, the inlet is blocked by a flap, for which the triode collector 51 is connectedbase transistor 64 of the amplifier 7 inlet valve. This eliminates the receipt of unaccounted coins in the automatic transmission and organizes regular payment for the passage and passage of passengers.

When os1; when one or more memory cells are being traded, the device allows you to pay for travel without waiting for your turn to pass, which significantly: increases the transmission capacity of the automatic transmission.

The automatic transmission device contains a block of protection against attempts at free passage and theft of incoming money by disabling counters ;; counting the number of coins.

To prevent free passage through the automatic transmission by logical manipulations on the output beams, the photosensors 12 and 14 contain separate amplifiers on triodes 46 and 47, the collectors of which are interconnected by two diode pins. One circuit consists of diodes 69 and 70, which are turned on towards one another, the other — from diodes 71 and 72, turned on towards one another in the opposite polarity. Diodes 69 and 70 are connected to the base of the triode 44 amplifier via a resistance of 73, and the middle point of the diodes 71 and 72 to the base of the triode 44 through a resistance of 74

and to the collector of triode 45, the base of which is connected to the collector of triode 44. The block on triodes 44 and 45 has a trigger effect and can have two stable positions in a certain state of triodes 46 and 47.

The protection unit operates as follows. When both photosensors 12 and 13 are darkened, the triodes 46 and 47 of the amplifier of the output control unit are closed, the ban is removed from the logic element consisting of diodes 69 and 70, and the triode 44 is opened by applying a minus potential through the resistance 73. the collector of the diode 44 is closed, and from the diodes 71 and 72 the supply voltage of this triode is applied and at the same time through the resistance 74 the position of the triode 44 is duplicated. At the moment when the triode 44 opens, the next memory element is reset (as described above), and connecting the collector of triode 44 with block 4 through diode 75, the zero potential voltage locks the triode 48 power supply, which enters the base through the winding of the counter 9 and the resistance 76. Capacitor 77 starts discharging to the base of the triode 48, triggers a time delay , thereby causing the passenger to leave the zone of the photosensors of the control output. Releasing a single photo sensor leads to the volume, then the magical element, consisting of diodes 71 and 72, prevents the 44 and 45 trioes to return to their original state, and therefore the capacitor 77, discharging to the base of the triode, closes it and the latter includes sash. For this, the collector of the triode 48 is connected to the base of the triode 41 of block 2. To prevent money theft by disabling counter 9, the latter is connected in series with the control unit 4 of the protection unit.

Thus, the free passage of a large group of passengers is excluded by paying only two fares (passage through the automatic transmission of one passenger and the release of only one photosensor of the exit control).

Intentional disabling of the counter leads to the automatic transmission shutting off the flaps and, consequently, blocking the receiving opening to pay for travel.

In order to securely lock the crescent of the flaps, blocking the passage through the automatic transmission, saving electricity and eliminating the vibration of the traction electromagnets due to pulsating currents (i.e., their noiselessness), the shutter mechanism power supply node contains knurled switches mechanically connected to the flaps.

The block of inclusion of the mechanism of the valves works as follows. In the initial state, the electromagnet 33 of the pivot flap and the electromagnet 32 of the clamp are de-energized. When the relay is turned on, the voltage through the contact

The last normally closed contact to the 1pp switch 30 is supplied to the traction electromagnet of the flap 26. After stor7 and 26 occupies the extreme operating position and is fixed by the strip 31, the switch 30 prepares the voltage switching from the electromagnet 33 to the locking electromagnet 3. Upon the return of the relay 43 in the initial state of the voltage through

0 the switching contacts of the latter are fed to the lock electromagnet 32. the electromagnetically driven action of the T1, m 33, the shutter 26 of the bluffy gate is chucked out with the bar 31 and under the action of the return plug

5 29 vzzvr phrrtsk in the initial state. In this case, the switch switch 30 is returned to its original state. disconnects the voltage from the electromagnet 32 tt prepares the inclusion of electrically actuated sash actuator 33.

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Subject invention

Automatic control

A unit containing photo sensors connected to a light board switching unit and through a first amplifier with a protection unit, memory blocks connected to an output control unit made on trans1-stor x, and a coin control unit that is connected through an amplifier to a counter, switch-on unit a shutter mechanism connected to the shutters, characterized in that, in order to increase the reliability of the device, a shut-off power supply unit of the shutter mechanism and two additional photosensors are introduced into it,

5 one of which is connected to the first and second inputs, and the other to the first and third inputs of the output control unit, the output of which is connected to the input of the protection unit, in the power supply of which a counter is connected, the output

the protection unit is connected to the input of the shutter mechanism activation unit, and two additional transistors and two pairs of connecting diodes are inserted into the output control unit, the base of the first additional transistor

connected through the first diode to the collector of the first transistor, which through the second diode is connected to the base of the first additional transistor and through the third dcode to the collector of the second transistor and the fourth diode, the cathode of which is connected to the cathode of the second diode, and the anode of the first diode The additional transistor is connected to the collector of each additional transistor, and the node for turning off the power of the sash mechanism, containing a limit switch mounted on each drive the anism of the valves, the electromagnetic latches associated with it, and the gravel switches are included in the circuit

, powering the electromagnets of the actuator of the valves and the electromagnets of the latches through the contacts of the relay of the block that activates the mechanism of the valves,

I-t 25

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