RU2712381C1 - Wireless radio-controlled lamp of road train wagon and adapter for installation of lamp on vehicle - Google Patents

Abstract

FIELD: radio engineering; electronics.

SUBSTANCE: group of inventions relates to a wireless radio-controlled lamp. Radio-controlled lamp comprises housing with control board, optical elements and lamp power supply. External part of the lamp housing is equipped with an adapter intended for installation of the lamp on the vehicle and activation of power supply to the control board. Adapter comprises external contact assembly and area for attachment of lamp to vehicle. External contact assembly contains two contact elements which are made with possibility of contact interaction with electroconductive area of the vehicle and which are part of electric circuit of the adapter. This circuit also includes inductive proximity switch installed in electric circuit together with contact elements so that activation of electric power supply from battery to lamp control board is performed only in case contact of contact elements with area of vehicle, having ferromagnetic and / or electroconductive properties, and / or when the inductive proximity switch of metallic material of the mounting bracket appears in the sensitive area.

EFFECT: providing stable operation of radio-controlled lamps in all modes of vehicle operation.

7 cl, 6 dwg

Description

Technical field

The proposed group of inventions relates to the design of a wireless flashlight of a vehicle to provide light signaling and an adapter for its installation on the bracket of a vehicle, cart or trailer. For example, this lantern can be used on a road train designed for movement at aerodrome sites.

State of the art

The prior art systems (see GB 2411458, publication date: 08/31/2005) transmit a radio signal from a transmitter to a receiver, providing the ability to wirelessly turn on the required light signal at the rear radio-controlled lights of a towed vehicle. In this system, the design of the flashlight contains a magnetic unit for its fastening, which can be made magnetic or having other locking elements.

This technical solution is the closest in technical essence and purpose of the claimed lamp and adopted as a prototype.

However, the wireless lamp known from the prior art does not contain a reliable lantern mount unit on the vehicle, does not contain an electrical circuit for turning on this lamp in operation, which would ensure its inclusion only when the lamp is placed on the metal parts of the vehicle. In addition, the known lamp does not contain a specialized adapter, which allows you to pair the lamp and the vehicle bracket. In particular, when using the claimed adapter and making minor changes to the design of almost any wireless flashlight, a compact flashlight design can be created that can be turned on only when the flashlight is installed on the metal parts of the vehicle, and also made with the possibility of quick installation and removal of the lamp from the vehicle due to the presence in the design of the adapter of a multiple-action locking mechanism for fixing the lamp on the bracket tr anport means.

Disclosure of Invention

The present invention is the creation of a wireless radio-controlled flashlight, which would have a reliable quick-mount to the vehicle bracket while ensuring stable contact of the contact node of the lamp with the ferromagnetic and conductive base of the vehicle bracket.

At the same time, quick-detachable fastening to the vehicle bracket is necessary in the design of these lights because of the need for their multiple installation and dismantling on the vehicle bracket, since each wireless radio-controlled flashlight is supplied with electricity from an internal current source (battery), which leads to the need to charge these batteries on specialized stands.

As for the presence of the contact node, which provides power off the lamp when it is removed from the vehicle, it allows you to automatically turn off the power and, accordingly, provides reliable inclusion of the lamp in operation without the use of movable switches and contactors, which can lead to premature circuit failure turn on the flashlight. In addition, the claimed design allows to exclude the operation of the lamp during its dismantling, which preserves the service life of the battery built into the lamp.

Thus, the technical result, the achievement of which the proposed group of technical solutions is aimed at, is to ensure the stable operation of radio-controlled lights in all modes of operation of the vehicle.

This problem is solved by creating a wireless radio-controlled flashlight for a road train cart containing a housing, with a control board located in it, providing the flashlight to operate in predetermined modes of operation of the vehicle, optical elements connected to the housing, a lamp power supply located in the housing, at least three light elements radiation connected to the control board, while the outer part of the lamp housing is equipped with an adapter designed to install the lamp on the vehicle and act power supply to the control board, the adapter contains at least an external contact node and a region for mounting the lamp to the vehicle, the external contact node comprising two contact elements that are configured to contact with the electrically conductive region of the vehicle for installation of the lamp, while the contact elements are conductive and have the properties of a permanent magnet, in addition, the contact elements are part of the electric the electric and magnetic circuits of the adapter, and the contact circuit also includes an inductive contactless switch installed in the electric circuit together with the contact elements in such a way that the power supply from the battery to the flashlight control board is activated as in the case of contact elements with the vehicle area, possessing ferromagnetic and / or electrically conductive properties, and in the case of the appearance of metallic material (vehicle bracket) in the the inductive zone of the inductive proximity switch, which leads to its operation and circuit closure between the contact elements, the inductive proximity switch located in the plane of the external contact node, in addition, the contact elements are electrically connected to the battery so that they can charge the battery from an external source of electricity, while the inductive proximity switch with the installed radio-controlled flashlight on the vehicle, It avoids turning off the radio-controlled flashlight when the contact elements have poor electrical contact with the vehicle bracket, in turn, the area for attaching the flashlight to the vehicle is made in the form of a groove for entering the fixing loop of the vehicle bracket, and fixing the bracket loop inside the groove is provided for in the groove of the movable spring-loaded rod, which in the locking position prevents the loop from exiting the groove, while the rod is connected to pressure lever, providing the ability of the pressure to act on the movable rod so that it can be carried out unhindered withdrawal of the loop from the groove.

The adapter for mounting a wireless radio-controlled flashlight on a vehicle comprises a housing in which there is an external contact assembly, an electrical circuit of a contact assembly, an attachment area of the adapter to the housing of the lamp, an interface region of the electrical circuit of the flashlight and the adapter, an area for mounting the adapter to the vehicle, and a mechanism for fixing the adapter on the vehicle, while the external contact node contains two contact elements with magnetic properties, which are made with possible contact interaction with the electrically conductive region of the vehicle, designed to install the lamp, and the electrical circuit of the contact node is an electric circuit for activating the supply of electric power from the lamp power element to its control board and includes these contact elements and an inductive proximity switch installed in the electric circuit in this way that the activation of the supply of electricity to the control board of the lamp through the interface area of the electric circuit of the lamp and hell Aptera is carried out only when the contact elements are closed by the area of the vehicle arm with ferromagnetic and / or conductive properties, and / or the mounting bracket metal material appears in the sensitive zone of the proximity inductive switch, in addition, the contact elements are electrically connected to the power element so that through them the battery can be charged from an external source of electricity.

An inductive proximity switch is an electronic device that creates an electromagnetic field in the sensitivity zone, responds to proximity to the active surface of metal objects and has a semiconductor switching element with a normally open contact, connected in parallel to the contact elements.

An inductive proximity switch in the adapter housing is installed between the contact elements.

In the electrical circuit of the contact node, the inductive proximity switch is directly powered from the power supply of the radio-controlled flashlight and is connected to the line with negative polarity through a semiconductor switching element with a normally open contact so that when a metal material appears in the sensitive area, the switching element is triggered and voltage is applied from negative output of the battery to the control board of the flashlight.

In the electrical circuit of the contact node, the contact elements are connected so that the negative terminal of the battery is connected to only one of the contact elements, while the second is connected to the negative input of the flashlight control board, thereby forming an open circuit in the line with negative polarity.

In the electrical circuit of the contact node, the contact elements and the inductive proximity switch form two independent open parallel lines, each of which ensures that the negative output of the battery element is connected to the control board of the flashlight only by closing the contact elements with the area of the vehicle arm having ferromagnetic and / or electrically conductive properties, and / or the appearance in the sensitive area of the inductive proximity switch of the metallic material of the mounting bracket.

Thus, the totality of the above features allows for the stable operation of radio-controlled lights in all modes of operation of the vehicle.

Brief Description of the Drawings

In FIG. 1 shows a layout of lights in a wireless control system for radio-controlled lights on a road train.

In FIG. 2 shows a design drawing of a radio-controlled flashlight and an adapter.

In FIG. 3 shows the installation diagram of the adapter of the radio-controlled flashlight on the vehicle bracket.

In FIG. 4 is a diagram of a contact node with an open power circuit of a control board of a radio-controlled flashlight.

In FIG. 5 is a diagram of a contact node with a closed power circuit of a control board of a radio-controlled flashlight.

In FIG. 6 shows a connection diagram of a radio-controlled flashlight to a charger.

The implementation of the invention

The claimed invention is essentially a design of wireless radio-controlled flashlights (right and left) and an adapter (a fixture, device or part intended for connecting devices) that allows the wireless flashlight and the mount bracket to be paired. Essentially, the claimed elements are part of the control system for turning on the rear radio-controlled lights of the vehicle by wirelessly issuing control commands over the air. In particular, this system duplicates the light signals activated by the tractor driver at the lights of the trailer, cart or other means associated with the tractor.

According to the presented figure 1, the wireless control system for turning on the light signals of the radio-controlled lights contains radio-controlled lights (left, right) (13), which are mounted on the cart (trailer) (23) of the road train. The system also includes a control device for radio-controlled lights (24) mounted on a tractor unit (25) of a road train, an antenna (26) for a control device for radio-controlled lights (24), which can preferably be installed on the roof of the tractor (25). At the same time, the control device for the radio-controlled lights (24) is made on an electronic board containing the electronic components of the device itself, the radio signal transceiver, as well as the electronic components ensuring its operation in a predetermined algorithm and electronic components that enable interfacing with the electrical circuit of the control device for the radio-controlled lights (24) node connecting to the wiring of the tractor. In turn, the tractor wiring node is configured to transmit an electrical signal to turn on the corresponding light signal of the tractor from its on-board network to the electrical circuit of the radio-controlled flashlight control device (24), which provides the generation of a command and the transmission of the radio signal to the corresponding radio-controlled flashlight to turn on the necessary light signal .

The wireless control system for turning on the lights is not the subject of the present invention and is presented only to explain some aspects of the claimed technical solutions.

The design of the radio-controlled flashlight consists of the following structural units and elements (see Fig. 2 and 3).

Lamp adapter (1) - serves as the basis for mounting the lamp housing and fixing the entire structure of the lamp on the rear surface of the cart base, which looks like a channel. The adapter (1) is made of polyamide-6 (Carprolon).

The external contact node contains two magnetic contact elements (2), which are simultaneously magnetic fasteners for the K-32 bolt and are elements with a metal body with an integrated one-sided neodymium magnet inside, have a protruding part with an internal thread.

The screw (3) with an internal thread is a metal screw with a round head having a slotted groove (for a screwdriver) with an internal threaded part. Designed for mounting a contact element (K-32 magnetic mount) on the adapter (1) of the radio-controlled flashlight and subsequent mounting of the body of the radio-controlled flashlight.

The bolt (4) is a metal bolt, designed for fastening the lamp housing to the adapter (1).

The rod (5) is a spring-loaded movable part with two grooves under the circlip, which is necessary to limit the exit of the safety loop (22) of the lamp mounting bracket from the groove of the adapter (1) of the radio-controlled lamp. Washer (6). Ring (7) - GOST 13940-86 retaining ring. Spring (8) - designed to preload the rod (5).

The sleeve (9) is a metal product with a smooth hole inside, with an external threaded part and slotted grooves (for a screwdriver) from one end. The sleeve (9) is designed to assemble and hold the rod (5) in spring-loaded state.

The washer (6), the ring (7), the spring (8) and the sleeve (9) together perform the task of preloading the rod (5) into the groove of the adapter (1) of the radio-controlled lamp in the perpendicular direction to limit the output of the safety loop (22).

The pressure plate or pressure lever (10) is a figured metal product, which is a presser foot for fingers with eyelets under the rolling axis and a bend with a groove for the rod hook (5) together with the washer (6) and the ring (7). The pressure plate or pressure lever (10) is designed to move the rod (5) from the groove of the adapter (1) of the lamp to allow the safety loop (22) to exit and to disconnect the entire lamp structure from the mounting bracket.

The axis (11) of the pressure plate is the metal axis for hooking the eyes of the pressure plate (pressure lever) (10) and for rolling it. Washer (12) - GOST 11371-78.

The housing (13) of the rear lamp serves as a housing for assembling the components of the radio-controlled lamp.

Magnetic mount (14) - is a metal case with a built-in one-sided neodymium magnet inside, has a hole in the center for fastening with a self-tapping screw to the lamp adapter (1). Designed to exclude vertical movements due to vibrations of the fixed lamp on the mount bracket during the movement of the cart on the road. Screw (15) M4x18 GOST 17475-80. Nut (16) M4.

Details screw (15) and nut (16) in the amount of 4 pcs. each type - designed for additional fixation of the lamp housing (13) to the adapter (1) of the lamp.

Tip (17) NKI 2.5-6 copper 2.5 square. mm ring insulated - intended for electrical connection of the circuit going from the control board of the lamp to the magnetic contact elements (2).

Control board (18) for a lantern - an electric board for a radio-controlled lantern, an actuator in a system for duplicating light signals from a tractor to the last cart of a road train.

Battery (19) 12V, 2.2Ah, Delta DT 12022.

The bracket (20) of the battery (19) (battery) - is designed to hold the battery in the lamp housing, is a plate with three holes in which are rubber bushings. The plate is mounted in the center of the battery and fixed together with the battery. On the rear inner wall of the lamp housing there are three protruding studs on which the lamp bracket with battery is installed through the rubber bushings.

Inductive proximity switch (21) (model ISB В2 В-31Р-4-LP-C or HB88-NO-NPN - built-in, cylindrical sensor, with external thread, with normally open contact, designed for additional non-contact switching of an electric circuit between magnetic contact elements (2) at the time of installation of the radio-controlled flashlights on the mounting bracket. As a result of the inductive proximity switch operating, the control board (18) of the flashlight turns on. The designs of inductive proximity switches are widely known from In particular, these switches are devices whose principle of operation is based on changing the parameters of the generator when a metal object is introduced into the active zone of the sensor.The change in amplitude is proportional to the distance to the metal object and is converted into an analog signal that arrives at the trigger (see, e.g. http://skbind.ru/induktivnye_beskontaktnye_datchiki).

Safety loop (22) - a metal bent bar installed inside the mounting bracket, which is a channel, the bar is welded outside to the upper shelf. Designed to hold the entire structure of the mount of the radio-controlled lantern mounted on the bracket from falling when all the magnetic mounts of the lantern on the adapter (1) are torn off at the moment of vibration when the cart moves - protection against tearing and loss.

Contact elements (2), a screw (3), a bolt (4) and a tip (17) are part of the electrical circuit involved to turn on the control board (18) of the flashlight and transfer the charge voltage from the contact pads of the charging stand through the electrical circuit of the flashlight board to the battery. When the magnetic contact elements (2) are closed to each other using the conductive metal elements of the vehicle bracket (cart frame (27), see Fig. 3), the control board (18) of the flashlight will turn on.

In figures 4 and 5 shows electrical circuits with open and closed power circuits of the control board (18) of the lamp.

So, according to the presented diagram, the external contact node of the adapter containing two contact elements (2) (magnetic contact elements) is installed on the line of negative polarity of the negative terminal of the battery (battery). If there is no closing conductive element between the contact elements (2) (for example, the vehicle’s metal bracket), the line from the negative terminal of the battery (19) is in the open state and, accordingly, the lamp control board (18) is not powered. In turn, the parallel line from the negative terminal of the battery, in which the inductive proximity switch (21) is installed, is also in the open state. The inductive proximity switch (21) is essentially an additional element in the circuit for a more reliable implementation of the process of turning on the lamp in operation. This circumstance is associated with external negative factors affecting the electrical contact between the surface of the bracket and contact elements. In particular, corrosion, oxidation, and similar factors can affect contact. To eliminate such situations, a parallel line for connecting the negative output to the control board through an inductive proximity switch (21) is provided. The operation of the switch (21) occurs only at the moment the metallic material of the mounting bracket appears in the sensitive area, which in turn activates the switching element of the switch, which closes the electrical circuit between the contact elements.

The figure 5 shows a diagram where the connection line of the negative output is closed.

In addition, it should be noted that since the wireless radio-controlled flashlight in its design contains a battery element (battery), it is periodically necessary to charge it. To carry out the charging process, contact elements (2) are used, which are electrically connected to the power element so that when the negative and the positive output of the external power source are connected to one of them, the battery is charged. In this mode, the contact elements (2) are not closed to each other. In FIG. 6 shows a charging unit (for example, DC / AC), the terminals of which are connected to the contact elements (2).

Claims (7)

1. The wireless radio-controlled lantern of a truck train contains a housing with a control board located in it, which ensures the operation of the lamp in predetermined modes of operation of the vehicle, optical elements connected to the housing, a lamp battery located in the housing, at least three light emission elements connected with a control board, characterized in that the outer part of the lamp housing is equipped with an adapter designed to install the lamp on the vehicle and activate the power supply to the pl control, the adapter at least contains an external contact node and an area for mounting the lamp to the vehicle, and the external contact node contains two contact elements that are made with the possibility of contact interaction with the electrically conductive region of the vehicle, designed to install the lamp, contact elements are conductive and have the properties of a permanent magnet, in addition, the contact elements are part of the adapter’s electrical circuit moreover, this circuit also includes an inductive proximity switch installed in the electric circuit together with the contact elements in such a way that activation of the electric power supply from the battery to the flashlight control board is carried out only in the case of contact elements with the area of the vehicle having ferromagnetic and / or electrical conductive properties, and / or when a metal material of the mounting bracket appears in the sensitive area of the inductive proximity switch of the mount, cr In addition, the contact elements are electrically connected to the battery so that the battery can be charged from an external power source, in turn, the area for attaching the lamp to the vehicle is made in the form of a groove for entering the fixing loop of the vehicle bracket, and the loop of the bracket inside the groove is carried out due to the movable spring-loaded rod provided in the groove, which in the locking position prevents the loop from exiting the groove and, in this case, the rod is connected to the pressure lever, which allows the pressure to act on the movable rod so that the loop can be freely withdrawn from the groove. 2. The adapter for mounting a wireless radio-controlled flashlight on a vehicle comprises a housing in which there is an external contact assembly, an electrical circuit of a contact assembly, an attachment area of the adapter to the housing of the flashlight, an interface area of the electrical circuit of the flashlight and the adapter, an area for mounting the adapter to the vehicle, and a mechanism for fixing the adapter on the vehicle, while the external contact node contains two contact elements with magnetic properties, which are made with possible contact interaction with the electrically conductive area of the vehicle, designed to install the lamp, and the electrical circuit of the contact node is an electric circuit for activating the supply of electricity from the lamp power element to its control board and includes these contact elements and an inductive proximity switch installed in the electric circuit in this way that the activation of the supply of electricity to the control board of the lamp through the pairing area of the electric circuit of the lamp and The adapter is carried out when the contact elements are closed by the area of the vehicle arm with ferromagnetic and / or conductive properties, and / or when the metal material of the mounting bracket appears in the sensitive area of the inductive proximity switch, in addition, the contact elements are electrically connected to the power element so that through them the battery can be charged from an external source of electricity. 3. The adapter for mounting a wireless radio-controlled flashlight according to claim 2, characterized in that the inductive proximity switch is an electronic device that creates an electromagnetic field in the sensitivity zone, responds to proximity to the active surface of metal objects and has a semiconductor switching element with a normally open contact connected in parallel to the contact elements. 4. The adapter for mounting a wireless radio-controlled flashlight according to claim 2, characterized in that the inductive proximity switch in the adapter housing is installed between the contact elements. 5. The adapter for mounting the wireless radio-controlled flashlight according to claim 2, characterized in that the inductive contactless switch in the electrical circuit of the contact node is directly powered from the battery and installed in a line with negative polarity so that when the contacts of the inductive proximity switch are closed, the negative terminal is connected battery to the lantern control board. 6. The adapter for mounting a wireless radio-controlled flashlight according to claim 2, characterized in that in the electrical circuit of the contact node, the contact elements are connected so that the negative terminal of the battery is connected to only one of the contact elements, while the second is connected to the negative input of the flashlight control board , thereby forming an open circuit in a line with negative polarity. 7. The adapter for mounting a wireless radio-controlled flashlight according to claim 2, characterized in that in the electrical circuit of the contact node, the contact elements and the inductive proximity switch form two independent open parallel lines, each of which provides the negative output of the battery to the control board of the flashlight only by closing contact elements by the area of the vehicle arm with ferromagnetic and / or conductive properties, and / or when sensitive the zone of the inductive proximity switch of the metal material of the mounting bracket.

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