RU84831U1 - SIGNAL RECEIVING ADAPTER FROM LIGHT-Emitting Element - Google Patents

Abstract

1. An adapter for picking up a signal from a light-emitting element, comprising a housing where an electric key controlled by a photocell is located, the housing being configured to fasten it with a fastening element on the elevator control unit in a position that provides optical communication between the light-emitting element of the elevator control unit and the adapter photocell, protected from external light exposure, as well as output wires for connecting it to the elevator block of the dispatch complex. ! 2. The adapter according to claim 1, characterized in that the housing is made in the form of a container with a window for the photocell and an opening for the output wires. ! 3. The adapter according to claim 2, characterized in that an adhesive fastener, for example double-sided tape, is used as a fastener. ! 4. The adapter according to claim 1, characterized in that the casing is made in the form of a circuit board with the elements of an electric key controlled by a photocell fixed to it. ! 5. The adapter according to claim 4, characterized in that the light-tight tubular element is used as the fastener. ! 6. The adapter according to claim 5, characterized in that the tubular element is made of an elastic lightproof material.

Description

The utility model relates to the field of elevator construction and is designed to pick up a signal from a light-emitting element, including the infrared range, serves to transmit information about unauthorized entry into the mine and provides the ability to connect elevators of the previous generation, for example, elevators of the type UPL, ULZh, etc. . to the elevator blocks of modern dispatch systems

At present, dispatch systems are used in the elevator facilities, in particular the “OB” dispatch complex, which allows controlling, servicing and providing intercom communication between the elevator and the dispatch center.

Operated dispatch systems provide for the connection of elevators to them, in which information about the emergency condition of the elevator is transmitted separately for specific parameters: mine protection, breaking the safety circuit, door drive accident, etc. Such execution of dispatch systems complies with the requirements of clause 13 of the current Rules for the Design and Safe Operation of Elevators PB 1055 8-03, according to which, when dispatching elevators (i.e., connecting them to the dispatch complex), it is necessary to obtain separate information on specific monitored parameters, in particular, information about the parameter - mine protection.

However, elevators of the previous generation are currently in operation, where it is not possible to transmit fault signals separately from the elevator control unit separately according to controlled parameters.

Known systems for monitoring and processing parameters of a group of elevators according to the patent of the Russian Federation for utility model No. 73862, B66B 5/02, 2008, and the certificate of the Russian Federation for utility model No. 15334, B66B 5/02, 2000, (dispatch systems) containing connected to a two-wire line a communication channel, on the one hand, a group of elevator units, and on the other, a dispatch unit. The control unit of each elevator is connected to the corresponding elevator block of the system and transmits the actual values of these parameters to the elevator block of the dispatch complex from the outputs of the nodes of the monitored parameters of the elevator and elevator equipment. Based on the data obtained on the controlled parameters, the elevator unit, in accordance with the program for processing the elevator's behavioral model, evaluates and fixes the normative state of the elevator and elevator equipment and transmits the processed data to the control unit via the communication channel for decision making. For processing the elevator unit of the system of controlled parameters, it is necessary to obtain separate information on specific controlled parameters.

The design of elevators of the previous generation, currently in operation, for example, elevators of the UPL and ULZh types manufactured in the 1980-1990s, does not allow transmitting separate information on the specific controlled parameters of the elevator to the elevator block of the dispatch complex.

The well-known elevator ULZH-10, which according to its technical description: “A control device for electric drives and automation of passenger elevators for typical residential buildings with a speed of up to 1.0 m / s using microelectronics” (excerpts are attached), contains an elevator car and an elevator control unit, located in the elevator engine room. The elevator control unit includes a mine protection signal generation unit, in which the closing contacts of the switches of all the mine doors are used (6.6.2., P. 22). The mine guard signal generation unit is used to detect unauthorized entry into the mine. The mine guard signal is generated in cases of violation of the established procedure for opening and closing the mine doors. When the mine guard signal is generated, the light-emitting LED element located on the elevator control unit starts to emit, and the mine guard signal itself goes further according to the scheme to the elevator control device assembly, where all the blocking signals generated when the monitored elevator parameters deviate from the norm are collected. As a result, when a blocking signal is received from any of the controlled parameters of the elevator, the main interlock contactor is activated, the elevator stops immediately and the “interlock” signal is generated and sent to the control room (p. 24, 6.6.3). Upon receipt of the “block” signal, the mechanic must identify the elevator problem, eliminate and turn on the elevator power, resetting the “block” signal.

Thus, this design of the elevator cannot provide separate information on specific controlled parameters, in particular, information about the parameter - mine protection.

The objective of this utility model is to develop a device that provides the ability to connect elevators of the previous generation to dispatch systems by removing and transmitting information about the presence of an unauthorized entry signal into the mine (mine protection) from the elevator control unit to the elevator unit of the dispatch complex.

The problem is solved in that the signal pick-up adapter from the light-emitting element, comprising a housing where an electric key controlled by a photocell is located, wherein the housing is adapted to be fastened by a fastening element to the elevator control unit in a position providing optical communication of the light emitting element of the elevator control unit and photocell adapter, protected from external light exposure, as well as output wires for connecting it to the elevator block of the dispatch complex.

The housing can be made in the form of a container with a window for the photocell and a hole for the output wires.

As a fastener, an adhesive fastener, for example, double-sided tape, can be used.

The housing can be made in the form of a circuit board with elements of the electrical circuit of a key controlled by a photocell fixed to it.

As a fastening element, a light-tight tubular element can be used, one end of which covers the photocell, and the other is intended for gripping the light-emitting element of the elevator control unit.

The tubular element may be made of an elastic lightproof material.

Figure 1 shows a General view of the adapter with the housing in the form of a container. Figure 2 shows a General view of the adapter with the body in the form of a board. Figure 3 is an embodiment of an electrical circuit of a key on a transistor.

The signal pick-up adapter from the light-emitting element contains a housing 1 made either in the form of a capacitance with a window for photocell 2 (Fig. 1), or in the form of a circuit board (Fig. 2), where an electric switch 3, controlled by photocell 2, and output wires 4 is located. The key can be made according to any known scheme, for example, on a transistor (figure 3). As the photocell can be used: photodiode, photoresistor, phototransistor. Mounting the adapter body 1, made in the form of a container, to the elevator control unit 5 (Fig. 1), which provides visual connection of the photocell 2 with the light-emitting element 7 of the elevator block of the dispatch complex, protected from external light exposure, can be carried out by any fixing element 6, for example, by means of double-sided tape. As a mounting element 6 for the adapter housing 1, made in the form of a board, can be a light-tight tubular element, one end of which covers the photocell 2 (figure 2), and the second is worn on the light-emitting element 7 of the elevator control unit 5, providing visual communication, protected from external light exposure. The choice of the embodiment of the adapter depends on the design of the position of the light-emitting element 7 on the elevator control unit 5. The output wires 4 are used to connect the adapter to the elevator block of the dispatch complex (not shown in the drawing).

The device operates as follows.

Depending on the design solution of the position of the light emitting element 7 on the elevator control unit 5, an appropriate adapter embodiment is used. When the light-emitting element 7 is located inside the unit with a transparent window on the continuous panel (Fig. 1), an adapter is used, the housing 1 of which is made in the form of a container with a window for the photocell 2. Fasten the adapter to the elevator control unit 5 using a fixing element 6, for example, using double-sided tape, combining the windows of the light-emitting element 7 of the elevator control unit 5 and the photocell 2 of the adapter. The direct fit of the adapter housing 1 to the housing of the elevator control unit 5 provides protection from exposure to the photocell 2 by external light sources, which eliminates the possibility of false triggering of the photocell of the adapter. When the light-emitting element 7 is located on the outer surface of the elevator control unit 5 (Fig. 2), an adapter with a housing 1 in the form of a board is used. Fix it on the control unit of the elevator 5 by means of a fastening element 6, for example, by means of a light-tight tubular element, the ends of which cover the photocell 2 and the light-emitting element 7, providing protection from exposure to the photocell 2 by external light sources. The output wires 4 are connected to the corresponding contacts of the elevator block of the dispatch complex. In cases of violation of the established procedure for opening and closing the doors of the shaft and unauthorized entry into the shaft of the included elevator, the elevator control unit 5 generates a signal by which the light-emitting element 7 of the elevator control unit 5 starts to emit. This radiation is received by the photocell 2 of the adapter, which generates and transmits the control signal to the electric key 3. The key contact closes and the mine guard signal is transmitted through the output wires 4 to the elevator block of the dispatch complex.

Claims (6)

1. An adapter for picking up a signal from a light-emitting element, comprising a housing where an electric key controlled by a photocell is located, the housing being configured to fasten it with a fastening element on the elevator control unit in a position that provides optical communication between the light-emitting element of the elevator control unit and the adapter photocell, protected from external light exposure, as well as output wires for connecting it to the elevator block of the dispatch complex. 2. The adapter according to claim 1, characterized in that the housing is made in the form of a container with a window for the photocell and an opening for the output wires. 3. The adapter according to claim 2, characterized in that an adhesive fastener, for example double-sided tape, is used as a fastener. 4. The adapter according to claim 1, characterized in that the casing is made in the form of a circuit board with the elements of an electric key controlled by a photocell fixed to it. 5. The adapter according to claim 4, characterized in that the light-tight tubular element is used as the fastener. 6. The adapter according to claim 5, characterized in that the tubular element is made of an elastic lightproof material.