RU2455704C2 - Control device for door locking and sealing - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: control device for door locking and sealing comprising a body with slots and grooves for arrangement of a plastic material, a rotary bolt installed on the axis its the possibility to install its elements in slots and grooves of the body, spring-loaded in an axial direction with a rod installed in the door frame perpendicularly to it, and a cover with a transparent window for contact with the body and the rotary bolt when locking a door. The body is arranged with smooth outer and inner surfaces. In the body on diametrically opposite sides from the slots there are L-shaped slots, where ledges enter, being placed in the inner part of the cover. At the end of the slot stroke, the ledges come in touch with electromagnets mounted into slots and having an electric connection with an inlet-outlet of an actuator device unit. The end of the rod is connected with an electronic circuit of the device.

EFFECT: control during door locking and sealing.

3 cl, 8 dwg

Description

The invention relates to the field of access control in the field of protected objects and can find application in everyday life.

Known technical solutions to prevent unauthorized admission of persons in the field of protected objects. One of these, taken as a basis, is the device according to Copyright Certificate No. 12999902, registered in the State Register of Inventions of the USSR on 12/12/1986, which has proven itself on the positive side over many years of operation. However, it has a drawback that does not allow for control when locking and sealing the door.

The purpose of the invention is to overcome the lack of control when locking and sealing the door by combining in a single unit a mechanical technical solution with microelectronics.

The goal is achieved in that the control device when locking and sealing the door is explained in figures 1-8, where in figures 1 and 2 - microelectronic component, figure 3, 5, 8 shows the mechanical component, figure 6 and 7 Shows the part of the mechanical solution, which was changed in order to solve the tasks.

The microelectronic component shown in FIGS. 1 and 2 comprises an input unit 1, block 2, block 3, and a converter amplifier block 4, a program start block 5, a constant pulse component 6, a variable component pulse set 7, block 8 - microprocessor kit, block 9 for recording the “Skip” signal, block 10 — generating the “Stop” signal, block 11 — microwave voltage, block 12 — generating control commands, block 13 — executive device, contact point 14, contact point 15, while block 1 input soy input-output inen with a pulse setting block 6 with a constant component, a program start block 5 connected by inputs and outputs to a microprocessor set block 8, to a constant pulse component setting block 6, an output connected to a program start block 5, an input block 1 connected to block 2 , block 3, block 4 of the amplifiers of the converters, the input-output connected to the block 5 start the program, connected by the inputs / outputs to the block 9 of the formation of the signal "Skip", the input-output connected to the block 6 of the pulse setting with constant component and block 8 of the microprocessor set, inputs and outputs connected to blocks 2, 3, 4 of the converter amplifiers and to block 10 of the signal formation “Stop”, connected to the input-output of block 5 of the program launch, block 12 of the formation of control commands, inputs and outputs connected to block 8 of the microprocessor kit, block 9 for generating a “Skip” signal, block 10 for generating a signal “Stop”, block 11 for generating a microwave pulse and block 13 for an actuator connected to contact point 15 with an input m unit 11 connected to the input-output reference pulse unit 6 to the constant component to the contact point 14 and to a block 12 forming the control command. In this case, the contact point 14 and the contact point 15 are connected to the mechanical part of the system, which is shown in FIGS. 3, 4, 5, 6, 7, 8, comprising a housing 16 with slots 17 and a recess 18 for accommodating plastic material, a rotary bolt 19, mounted on the axis 20, with the possibility of placing its elements in the slots 17 and the recesses 18 of the housing 16. The axially spring-loaded rod 21 is installed in the box 28 of the door 27 perpendicular to it. There is a threaded cover 22 with a transparent window 23, while the axis 20 of the pivot bolt 19 is mounted on the end of the rod 21, a thread is made on the body 16, and the threaded cap 22 is screwed onto the casing 16 to interact with the pivot bolt 19 when locking.

In terms of the tasks to be solved (see Figs. 6 and 7), the housing 16 is made with smooth internal and external surfaces, in the housing 16, L-shaped grooves 24 are made on the diametrically opposite side, in the end of which electromagnets 25 are mounted using the contact point 15 connected to the output of the block 11 (Fig. 1) of the microwave pulse formation, and the contact point 14 is connected to the output 13 of the actuator (Fig. 1). In this case, the contact point 14 is made in the form of a petal rigidly attached to the rod 21 (Fig. 8), and the threaded cap 22 is made (Fig. 7) in the form of a smooth inner surface, where ferromagnetic elements 26 are mounted in the form of protrusions in the inner part of the cap 22 for contact with electromagnets 25.

Figures 1 and 2 show an input unit 1 made in the form of energy-enhancing elements, amplifier units 2, 3, and 4 made in the combinatorics of precision operational amplifiers by comparators, program start-up unit 5, made in the form of an electronic switch in combination with LEDs, unit 6 setting pulses with a constant component, block 7 setting pulses with a variable component, block 8 - microprocessor set, block 9 generating a signal "Skip", block 10 generating a signal "Stop", block 11 generating a pulse of a microwave, block 12 f “Stop” signal conditioning, actuator unit 13, contact point 14, contact point 15. In this case, the input / output unit 11 is connected to the pulse setting unit 6 with a constant component, the program start block 5, the input connected to the pulse setting unit 7 from the microprocessor kit, with a unit 6 for setting pulses with a constant component, an output connected to a program start block 5, an input unit 1 connected to a block 2, a block 3, a block 4 of converter amplifiers, the outputs connected to the block 8 are microprocessor about the kit, the input-output connected to the system start-up block 5, connected to the outputs and inputs with the “Skip” signal generating unit 9, the input and output connected to the constant component pulsing unit 6 and the microprocessor set unit 8, the input-outputs connected to the blocks 2, 3, 4 amplifiers of the converters and with the Stop signal generation block 10 connected to the input-output of the program start block 5, to the control command generation block 12, the inputs and outputs connected to the microprocessor block 8 unit, the skip signal generation block 9, the Stop signal generation block 10, the microwave pulse shaping block 11, and the actuator block 13 connected to contact point 15 with the input of the microwave pulse shaping block 11 connected to the block by inputs and outputs 6 sets the pulses with a constant component, contact point 14, and to the block 12 of the formation of control commands. In this case, contact 14 and contact 15 points are connected to the mechanical part of the system, which is shown in FIGS. 3, 4, 5, 6, 7, 8 and contains a housing 16 with slots 17 and recesses 18 for accommodating plastic material, a rotary bolt 19, installed on the axis 20, with the possibility of placing its elements in the slots 17 and the recesses 18 of the housing 16. The axially spring-loaded rod 21 is installed in the box 28 of the door 27 perpendicular to it. The threaded cover 22 is made with a transparent window 23, while the axis 20 of the pivot bolt 19 is mounted on the end of the rod 21, the thread is made on the body 16, and the threaded cap 22 is screwed onto the body 16 to interact with the pivot bolt when locking. However, in terms of the tasks to be solved (see Fig. 6 and Fig. 7), the housing 16 is made with smooth inner and outer surfaces, in the housing 16, L-shaped cutouts 24 are made on the diametrically opposite side of the slots, in the end of which electromagnets 25 and using the control point 15, they are connected to the output of the microwave pulse generating unit 11 (Fig. 1), and the control point 14 is connected to the output of the actuator unit 13 (Fig. 1). In this case, the control point 14 is made in the form of a petal rigidly attached to the rod 21 (Fig. 8), and the threaded cap 22 is made (Fig. 7) in the form of a smooth outer and inner surfaces, ferromagnetic elements are mounted in the inner part of the cap 22, made in protrusions for contact with electromagnets 25.

In this case, the input unit 1 is made in the form of an unfolded flower bud (Fig. 2), and each petal is made of the thinnest metal films connected into a single membrane package, where each package is made of various metal formations, based on which a signal is received from task unit 6 pulses with a constant component.

The device for monitoring when locking and sealing the door works as follows:

1st phase mode

2nd phase mode.

The 1st phase mode works in the learning algorithm: using block 5, the program is launched, which is instantly fixed on the start indicator, made in the form of LED indicators; one of the fingers touches the surface of the input unit 1. Simultaneously with block 6, a voltage with a constant repetition rate is applied to the deposition of energy-sensitive elements (Fig. 2), when the surface of block 1 is touched, a voltage with the amplitude component of the oscillation and an oscillating signal obtained from block 6 is generated. This signal is summed and fed to the inputs of blocks 2, 3, 4, where it is amplified and converted into digital graphics, which, acquiring a new face, goes to the inputs of microprocessor unit 8, where the processing and folding of the received information into the ROM database takes place, and contains te a communications operational memory configuration in the form of digital 3-storey level is stored in volatile memory ROM in the form of an image, for example:

1 1.00110010

2 0.01110010

3 1,10110010

Thus, the first component of the algorithm is implemented. At the same time, it is provided that for persons who have passed the “registration”, access to the field of protected objects may be limited or, in another case, if necessary, increased within certain limits and capabilities of the technical characteristics of unit 8 of the microprocessor kit.

As soon as the basic component has been created and all persons who can open and close and reseal the premises of the protected objects are identified, the device will be launched by the specified number of code to control when the door is locked and sealed in automatic mode. This action is fixed by the indicators of block 5 (program start), which from this moment is controlled by block 8. The second phase of the device’s operation begins. In the second phase, a strict control procedure is performed when locking and sealing the door.

The mode of the 2nd phase of the device for monitoring when locking and sealing the door.

The algorithm of the 2nd phase mode is determined by a strict order, which should be strictly observed, and any violation of the established rule contributes to the activation of block 11, where a microwave pulse is generated. If a person touches the surface of the wafers of unit 1, then the corresponding signal enters unit 5 (starting the system), at the same time this signal drives unit 6 (setting pulses with a constant component), into block 7 (creating pulses with a variable component) , as well as in blocks 2, 3, 4 (amplifiers of converters), from the output of which the signal in the form of digital graphics is fed to the input of block 8 (microprocessor kit). In accordance with a predetermined algorithm, block 8 processes the incoming information, for example, in ROM, where basic data on persons admitted to autopsy are stored. The reference records are compared with the newly received and if the reference record coincides with the newly received information from block 8 of the microprocessor set, a recognition signal follows in block 9, where a pass signal is generated, which from the output of block 9 goes to the input of block 12, where the control signal is generated. As a result of the action of this signal, a group signal is supplied to the actuator of unit 13, where the 1st group blocks the operation of the microwave pulse generating unit 11, and the 2nd group, through the control point 15, relieves the supply voltage of electromagnets that are installed in L-shaped grooves. With the arrival of the recognition signal from the signal generating unit 9, a pulse is sent to the program unit 5, where the skip signal lights up on the indicator. From this moment, a person admitted to opening can calmly remove cover 22 from housing 16 and print the room. In the case of unauthorized access from block 10, the Stop signal is output from the output from which the signal is fed to the input of the control command generation block 12, which starts the circuit of the microwave generation block 11. At the same time, from block 12, the signal enters block 13, from which the “On” command follows, of the microwave pulse generating unit 11, from which the microwave signal is transmitted to the metal part of the mechanical component through the control point 14. Simultaneously with the block 13, the actuator through the control point 15 receives voltage to the electromagnets 25, while the magnetic field created by it holds the ferromagnetic elements 26 and does not allow the cover 22 with the transparent window 23 to be brought out of the closed state.

Thus, control over the sealing and opening of the protected object is carried out with the simultaneous suppression of the actions of persons not registered in the package block of microprocessor sets.

Claims (3)

1. A device for monitoring when locking and sealing the door, comprising a body with slots and recesses for accommodating plastic material, a rotary bolt mounted on an axis with the possibility of placing its elements in the slots and the recess of the body, axially spring-loaded with a rod installed in the door frame perpendicularly her, and a cover with a transparent window for contact with the housing and the swing bolt when locking the door, characterized in that the housing is made with smooth external and internal surfaces, while "L" -shaped grooves are made in the housing on diametrically opposite sides of the slots, which include protrusions located in the inner part of the lid, and at the end of the stroke of which they come into contact with electromagnets mounted in the grooves and electrically connected to the input-output block actuator, and the end of the rod is connected to the electronic circuit of the device. 2. The device according to claim 1, characterized in that the control for locking and sealing the door is carried out by the microelectronic component of the device, comprising: an input unit made in the form of energy-sensitive elements, three amplifier units and converters made in precision operational amplifiers in combination with comparators ; a program start block, a pulse set block with a constant component, a pulse set block with a variable component, a microprocessor set block, a “SKIP” signal block, a STOP signal block, a control command block, an actuator block; wherein the input unit is connected by an input-output to a variable impulse assignment unit connected to the microprocessor unit by the input-output unit, to a constant component impulse assignment unit connected by the output to the program start-up unit, an input unit connected to three converter amplifier units, inputs and outputs connected to the microprocessor unit, connected to the program start block, connected by inputs and outputs to the STOP signal conditioning unit, connected about to the input-output of the program launch block, the control command generation unit connected to the microprocessor unit by the inputs / outputs, the “PASS” signal generation unit, the “STOP” signal generation unit, the microwave voltage unit connected by the input-output to the pulse setting unit with a constant component to the contact point “14” and to the control command generation unit, while the contact point “14” and the contact point “15” are connected to the mechanical part of the system. 3. The device according to claim 2, characterized in that the input unit is made in the form of energy-sensitive elements and is a collective membrane of metal films connected in a single package, while vibrations with a constant repetition rate are applied to the membrane lining, and when a person enters the field of action of energy-sensitive elements from the outputs is removed voltage of various configurations, which are fed to the inputs of the amplifiers of the converters, the outputs of which are taken signals in the form of mathematical graphics.

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