RU43335U1 - MECHANICAL AND ELECTRICAL PARTS OF LIGHTING INSTRUMENT WITH POWER SUPPLY UNIT - Google Patents

Abstract

The utility model relates to electrical engineering and is used to increase reliability and provide automatic power management for lighting electrical appliances of various types and purposes. The objective of the utility model is the development of a lighting device with a power control unit, characterized by the strength, reliability of the mechanical part, the versatility of the electrical part for switching any loads, automatic switching on and off of the power supply, non-contact power management with minimal energy costs, simplicity, reliability, which allows to manufacture and maintain him in the conditions of repair shops. The mechanical part of the lighting device with a power control unit includes a lighting device housing 1, a shaped screw 2, a light emitting element 3, an electric circuit board 4, a terminal block 5, a power control unit housing 6, a fixing screw 7, a diffuser 8, a power wire 9, a surface fasteners 10, attachment unit 11. The electrical part of the lighting device with a power supply control unit includes an acoustic module A. Interconnected amplification module B, interval module disconnection V, power supply module G, disconnection module D, rectification module E.

Description

The utility model relates to electrical engineering and is used to increase the reliability and automatic power management of lighting electrical appliances, different in type and purpose.

The well-known "Lamp" (passport lamp NP029-2 × 60-001, mass-produced for at least 2 years, a copy is attached), containing a housing that interacts with the surface of the mount by means of a mounting element, a diffuser, a terminal block and a cartridge mounted on the housing.

The disadvantages of such a luminaire include the fact that switching on and off occurs by manual use of unreliable standard mechanical contact switches, there is no automatism for turning the network on and off, the incandescent lamp consumes a large amount of electricity, the incandescent lamp is not protected against burnout, the lamp is not protected against shock unauthorized access.

It is known "Lighting control device" (see RF patent No. 2066940, H 05 V 37/02, 1996), containing an electronic time delay relay in which a composite transistor is used, which ensures reliable operation of the device in the event of possible occurrence of static charges and other interference as well as high output impedance and, accordingly, long time delays with relatively small capacitance ratings.

The disadvantages of this device include the distortion of the shape of the sinusoid of the supply voltage, hence the inability to connect inductive loads such as fluorescent lamps with starters and chokes; switching on occurs using unreliable standard mechanical contact switches; lack of automatic network connection; complexity, unreliability of the circuit; large overall dimensions of the device.

It is also known as "Lighting control device" (see application for invention of the Russian Federation No. 96110097, Н 05 В 39/04, 1998), containing the lighting load connected in series with the triac and buses for connecting to the mains, the first rectifier bridge connected with a diagonal alternating current with a triac control electrode, a triac control circuit, the input of which through the first key is included in the diagonal of the rectified current of the first bridge and a control element, characterized in that an audio sensor is used as a control element k, and the control circuit includes an amplifier sequentially connected to the sound sensor, an adjustable control sensitivity switch, an adjustable lighting duration adjuster, and an adjustable lighting power adjuster, the adjustable control sensitivity adjuster being a voltage divider with a first potentiometer connected to the first input of the comparator, the second input of which is connected to the output of the amplifier of the sound sensor, an adjustable adjuster of the lighting duration is made on the basis of one-shot, containing the first element AND NOT. the first input of which is connected to the output of the comparator, and the output is connected through the first charging capacitor and the second potentiometer with the inputs of the second AND-NOT element, the output of which is connected to the second input

the first NAND element and the input of the second key, an adjustable lighting power adjuster is made in the form of a triac control pulse shaper based on an analog of a single-junction transistor, a second charging capacitor and a third potentiometer included in the diagonal of the rectified current of the second bridge, while the input of the pulse shaper is connected to the output the second key, and the output is with the input of the first key.

The disadvantages of the known device include the distortion of the sinusoid shape of the supply voltage, hence the inability to connect inductive loads such as fluorescent lamps with starters and chokes; complexity, unreliability and large size of the circuit; the impossibility of inclusion in an open circuit, instead of typical switches; the need to lay a third wire to power the device with a change in the existing building wiring diagrams, which increases the complexity and cost of installation and repair work.

The objective of the utility model is the development of a lighting device with a power control unit, characterized by the strength, reliability of the mechanical part, the versatility of the electrical part for switching any loads, automatic switching on and off of the power supply network, non-contact power management with minimal energy costs, simplicity, reliability, which allows to manufacture and maintain him in the conditions of repair shops.

The specified technical result is achieved by the fact that the mechanical part of the lighting device with the power control unit is made as follows: the housing of the lighting device interacting with the surface of the mount through the mount, the housing is connected to

a light-emitting element and a diffuser with the possibility of removal, while the housing of the lighting device further comprises a power control unit, consisting of an electric board located in the body of the power control unit, in the latter a terminal block is rigidly mounted, which is electrically connected to the electric board.

The housing of the lighting device is made explosion-proof and / or tight, and / or non-conductive, and / or shockproof, and / or heat-resistant. The housing of the power control unit is explosion-proof and / or sealed, and / or non-conductive, and / or shockproof, and / or heat-resistant. The diffuser is made of shockproof and / or heat-resistant. The housing is attached to the diffuser by means of one or more shaped screws. The interaction of the housings with the mounting surface is implemented by one or more mounting nodes. The fastening element of the housing of the lighting device to the surface of the fastening is made in a threaded and / or self-tapping, and / or other form. The fastening element of the cases of the power control unit to the housing of the lighting device is made in a threaded and / or self-tapping, and / or other form. The diffuser can be made spherical, flat or other shape with the optical effect of many lenses.

The specified technical result is also achieved by the fact that the electrical part of the claimed lighting device with a power control unit is made as follows:

the control element is the field effect transistor of the shutdown module, included in the diagonal of the rectified current of the rectifier bridge of the rectification module, the gate of the field effect transistor is connected to the output of the shutdown interval module,

comprising at least a microcircuit, which is connected by its input to the output of an amplification module containing at least a microcircuit, and an acoustic module containing at least an acoustic element is connected to the latter, moreover, a circuit power module comprising at least a resistance, a capacitor and a stabilizing element, while the circuit is made in a bipolar form.

In load on mode, the claimed circuit does not consume electricity.

The electrical part of the lighting device with a power control unit further includes: an alternative shutdown module comprising at least a photocell; a sensitivity tuning module comprising at least a resistance; a voltage network power limiting module comprising at least a resistance; an economy mode module comprising at least resistance; a voltage reduction module comprising at least a transformer; a voltage stabilization module comprising at least a stabilizing element; includes one or more types of light emitting elements made in the form of an incandescent lamp and / or LED and / or other element.

The field effect transistor of the shutdown module is a control element. This allows you to switch any load: active, inductive, capacitive and does not distort the shape of the sinusoid of the supply voltage. The output transistor does not consume power for control. The circuit with minimal power consumption is made in the form of a small-sized device, included

sequentially in an open circuit, which allows it to be installed, for example, instead of standard lighting fixtures.

The claimed mechanical and electrical parts are interconnected by a single inventive concept, that is, the technical solution meets the requirement of "unity".

Despite its simplicity in manufacturing, the proposed utility model allows automatically controlling the on and off power supply of the lighting device without contact.

The claimed utility model is illustrated by the following examples of specific performance.

In Fig.1, 2 shows the mechanical part of the lighting device with a power control unit (Fig.1 is a top view, Fig.2 is a side view).

Figure 3 shows the electrical part of the lighting device with a power control unit (circuit).

Figure 1 shows the housing of the lighting device 1, the shaped screw 2, the light emitting element 3, the electric board 4. terminal block 5, the mounting screw 7.

Figure 2 shows the housing of the power control unit 6, the mounting screw 7. diffuser 8, the wire supply 9, the surface of the mount 10, the mount 11.

Figure 3 shows the interconnected acoustic module A, amplification module B, module of shutdown intervals C, power module G, module of shutdown D, rectification module E.

The mechanical part of the lighting device with a power control unit operates as follows.

The light emitting element 3 is mounted in the housing of the lighting device 1 by means of a fixing screw 7. The housing of the power control unit 6 is mounted in the housing

light fixture 1 by means of a fixing screw 7. A terminal block 5 is rigidly placed on the housing of the power control unit 6. An electric board 4 is located in the case of the power control unit 6. The light emitting element 3, the terminal block 5, the electric board 4 and the supply wires 9 are electrically interconnected . The housing of the lighting device 1 is mounted to the surface of the mount 10 using the mount 11.

The electrical part of the lighting device with a power control unit operates as follows.

The sound signal perceived by acoustic module A with acoustic element BM1 is fed to amplification module B with microcircuit DA1 (an amplifier with a special frequency response). From the output of the DA1 chip, the signal is fed to the module of shutdown intervals B, which includes the load for a given time, assembled on the basis of the trigger of the DD1 chip. The timing circuit is the capacitor C5 and the resistance R5 of the module of the shutdown intervals B. The diode VD2 is necessary for quick restoration of the circuit for its readiness for new trips. From the trigger output, the signal goes to the gate of the field-effect transistor VT1 of the shutdown module D, which controls the inclusion and disconnection of the load included in the diagonal of the rectifier bridge of the rectification module E. Capacitor C4 serves to power the circuit at the moments of switching on the load. The Zener diode VD1 stabilizes the supply voltage of the circuit. The resistance R7 limits the current consumed by the circuit, and the diode VD3 of the power supply module G does not allow the capacitor C4 to discharge when the load is turned on through the open field effect transistor VT1.

All this ensures the reliability, convenience and electrical safety of the lighting device with a power control unit.

The proposed design was made and passed practical testing at enterprises in the city of Yekaterinburg.

Using the proposed lighting device with a power management unit allows you to automatically contactlessly control the power on and off of the power supply of an electric lighting device, which increases the reliability and durability of the design and provides significant energy savings at minimal cost for the manufacture and maintenance of the lighting device.

Claims (19)

1. The mechanical part of the lighting device with a power control unit, consisting of a housing of the lighting device interacting with the mounting surface by means of a mounting unit, a light emitting element and a diffuser, removably connected to the housing of the lighting device, characterized in that the housing of the lighting device further comprises a control unit power supply, consisting of an electric board located in the housing of the power control unit, in the latter is rigidly installed A terminal block is provided that is electrically connected to the circuit board. 2. The mechanical part of the lighting device with a power control unit according to claim 1, characterized in that the housing of the lighting device is explosion-proof and / or sealed and / or non-conductive and / or shockproof and / or heat-resistant. 3. The mechanical part of the lighting device with a power control unit according to claim 1, characterized in that the housing of the power control unit is explosion-proof and / or sealed and / or non-conductive and / or shockproof and / or heat-resistant. 4. The mechanical part of the lighting device with a power control unit according to claim 1, characterized in that the diffuser is made of shockproof and / or heat-resistant. 5. The mechanical part of the lighting device with a power control unit according to claim 1, characterized in that the diffuser is attached to the housing of the lighting device by means of one or more shaped screws. 6. The mechanical part of the lighting device with a power control unit according to claim 1, characterized in that the interaction of the housing of the lighting device with the mounting surface is realized by one or more mounting nodes. 7. The mechanical part of the lighting device with a power control unit according to claim 1, characterized in that the interaction of the housing of the power control unit with the housing of the lighting device is implemented by one or more attachment points. 8. The mechanical part of the lighting device with a power control unit according to claim 1, characterized in that the mounting element of the housing of the lighting device to the mounting surface is made in a threaded and / or self-tapping, and / or other form. 9. The mechanical part of the lighting device with a power control unit according to claim 1, characterized in that the fastening element of the housing of the power control unit to the housing of the lighting device is made in a threaded and / or self-tapping, and / or other form. 10. The mechanical part of the lighting device with a power control unit according to claim 1 or 4, characterized in that the diffuser is made spherical, flat or other shape. 11. The mechanical part of the lighting device with a power control unit according to claim 1, characterized in that the diffuser is made with the optical effect of many lenses. 12. The electrical part of the lighting device with a power control unit, switching any type of load, connected in series to the load, including an acoustic module, a gain module, a module for shutdown intervals, a shutdown module, a power module, a rectification module, characterized in that the control element is field effect transistor of the shutdown module included in the diagonal of the rectified current of the rectifier bridge of the rectification module, the gate of the field effect transistor is connected to the output of the interval module in a switch-off containing at least a microcircuit, which is connected by its input to the output of an amplification module containing at least a microcircuit, an acoustic module containing at least an acoustic element is connected to the latter, and a circuit power module is included in the other diagonal of the rectified rectifier current containing at least a resistance, a stabilizing element and a capacitor, while the circuit is made in a bipolar form. 13. The electrical part of the lighting device with a power control unit according to item 12, characterized in that it further includes an alternative shutdown module containing at least a photocell. 14. The electrical part of the lighting device with a power control unit according to claim 12 or 13, characterized in that it further includes a sensitivity adjustment module comprising at least a resistance. 15. The electrical part of the lighting device with a power control unit according to item 12, characterized in that it further includes a network power limiting module containing at least a resistance. 16. The electrical part of the power control device according to item 12, characterized in that it further includes an economy mode module containing at least a resistance. 17. The electrical part of the lighting device with a power control unit according to item 12, characterized in that it further includes a voltage reduction module containing at least a transformer. 18. The electrical part of the lighting device with a power control unit according to claim 17, characterized in that it further includes a voltage stabilization module comprising at least a stabilizing element. 19. The electrical part of the lighting device with a power control unit according to item 12, characterized in that it includes one or more types of light-emitting elements made in the form of an incandescent lamp and / or LED, and / or another element.