BR102019004827A2 - AUTOMATIC BIVOLT ALTERNATING CURRENT ELECTRONIC CONVERTER DEVICE, POWER SUPPLY 110 V, 127 V OR 220 V AND OUTPUT 127 V, FOR UNIVERSAL BRUSH ENGINES UP TO 3000 W AND RESISTANT LOADS UP TO 3000 W WITH OPTIONAL DIMMER - Google Patents

Abstract

bivolt alternating current automatic electronic converter device, 110 v, 127 v or 220 v power supply and 127 v output, for universal brush motors up to 3000 w and resistive loads up to 3000 w with optional dimmer. addresses the present patent application for an electronic converter device, whose application is directed to universal brush motors with specific characteristics of input and output voltage, as well as power. these motors are applied in a series of electrical or electro-electronic equipment. the invention comprises an input (1) 110 v, 127 v, 220 v and an output (2) 127 v, with a 24 v source (3), a wheatstone bridge (4) preceded by resistor r1 (4b), a resistive divider (5), a trigger unit (6), a transistor tr1 (14), for switching relay rl (15b) according to the wheatstone bridge (4), a triac t1 (7), next to the unit trigger (6) and a potentiometer (p1), which can be open, closed or be a dimmer (8); 110 v, 127 v or 220 v is applied to the input (1), while the output (2) will always supply a voltage not greater than 127 v.

Description

AUTOMATIC BIVOLT ALTERNATING CURRENT ELECTRONIC CONVERTER DEVICE, POWER SUPPLY 110 V, 127 V OR 220 V AND OUTPUT 127 V, FOR UNIVERSAL BRUSH ENGINES UP TO 3000 W AND RESISTANT LOADS UP TO 3000 W WITH OPTIONAL DIMMER FIELD OF THE INVENTION

[001] It deals with the present patent application for an electronic converter device, whose application is aimed at universal brush motors with specific characteristics of input and output voltage, as well as power. These motors are applied in a series of electrical or electronic equipment.

BRIEF SUMMARY

[002] Particularly, the invention refers to a device composed of an electronic plate equipped with an automatic sensor of controlled voltage, making bivolt any industrial and residential equipment that use universal brush motors up to 3000 W, or resistances up to 3000 W In this way, said universal brush motor can be supplied with a voltage of 110 V, 127 V or 220 V, without causing overvoltage damage and consequent burning of the equipment to which it is coupled. Among the equipment or devices that can use the converter device of the invention, we can highlight: industrial equipment such as power tools, drills, grinders, sanders, marble saws, lawn mowers, among others. The invention also applies to appliances such as mixers, blenders, as well as equipment that uses electrical resistors, such as: dryers, showers, ovens and others.

TECHNICAL STATUS

[003] The document WO201408588, published on 12/06/2014, describes a circuit and device for protection of bivolt motors, preferably for induction motors used in hermetic compressors for refrigerators. Provision is also made for an induction motor and a control and protection system for an induction motor, according to the techniques of the present invention. In a simplified way, it can be said that the protection device for a single-phase bivolt induction motor, provided for in the present invention, comprises a bimetallic disc, a heating resistance element, a disc connection electrically connected to the bimetallic disc, a common connection, electrically connected to the resistance element, heating and the bimetallic disc, and a connection of the resistance element electrically connected to the heating resistance element, in which the single-phase bivolt induction motor comprises at least one first main winding and one second main winding. The common connection is electrically connected to the first main winding and the resistance element connection is electrically connected to the second main winding, and the disk connection is electrically connected to a voltage source. The protection device is configured to provide thermal protection for the single-phase bivolt induction motor after simultaneously disconnecting the first main winding and the second main winding from the voltage source, due to the heating of the bimetallic disc, which electrically disconnects the common connection voltage source.

[004] Market research indicates that, at the market level, universal brush motors up to 3000 W and resistive loads with bivolt power (110 V, 127 V, 220 V) are not available, as far as is known, being the same manufactured in single voltage supply, that is, they aim to serve professional or semi-professional electric machines of all models, which are manufactured in a single voltage. The same occurs with appliances with universal brush motors and industrial or residential products that use resistors in their manufacture, such as showers, dryers, electric ovens and others.

[005] In the current state of the art, low-amperage bivolt electronic converters with direct current voltage output are known, normally used in cell phone chargers, battery chargers, televisions, radios, notebooks and others. Low-power electronic converters, operating from 127 V to 220 V and 220 V to 127 V, with a maximum power of 100 W, are also known. Conventional transformers by induction, wound with copper or aluminum wires, for low , medium and high voltage in alternating current, which are usually robust and heavy.

[006] The inventor is also aware of an electronic device with an objective similar to that proposed in this invention, that is, to provide an automatic stabilized voltage and bivolt. However, the said device did not meet the current technical standards, being rejected in its application proposal, with a power factor outside the technical standards, causing the burning of equipment, high heating of components and not having passed robustness and durability tests. . Nevertheless, changes in the specifications of the equipment associated with it have been observed in this device, particularly with regard to torque, rotation and excessive wear of parts.

THE INVENTION

[007] The present invention differs from the state of the art in that it presents unique and innovative technology, changing the electronic system applied to the device, which provides voltage stabilized within the standards of the receiving equipment, being fully functional in industrial and commercial environments, where they are inverters, robots and others are used. According to the device of the present invention, there is no possibility of a voltage surge, so as to remain stabilized, even at full operating load of the mentioned receiver equipment, maintaining the temperature within the standards of the electronic components.

[008] Another important feature of the present invention is the fact that, in the brush motor, excessive sparking does not occur, in addition to correcting the power factor and thus allowing the use of dimmer or potentiometer, in the case of use with screwdrivers or electric machines equipped with the device of the invention; to this, is added the fact of being able to considerably reduce the size of the device of the invention, making it possible to be applied in equipment and small machines, among others.

OBJECTIVES OF THE INVENTION

• - oferecer, ao fabricante de máquinas e equipamentos, um dispositivo inovador, com baixo custo e altamente eficiente, além de ser de fácil adaptação em equipamentos e máquinas elétricas;
• - reduzir custos relacionados com armazenamento, transporte e todo o processo de logística;
• - facilitar vendas online ou no balcão, independentemente do fato de a localidade de uso do dispositivo opera em 110 V, 127 V ou 220 V; além de permitir aumentar o misto de modelos de máquinas e equipamentos em estoque, notadamente em função de não requerer o estoque em duas diferentes voltagens;
• - substituir transformadores de corrente pesados e caros, quando em comparação ao dispositivo objeto da presente invenção;
• - possui importante função na venda direta, pois, com certeza, o consumidor/profissional final opta por um equipamento bivolt, em função de vários fatores: praticidade, segurança e economia, notadamente por evitar acidentes e queima de máquinas ou eletrodomésticos a partir do acoplamento em tomada com tensão incorreta.

[009] The main objectives of the invention are as follows:
- considerably reduce costs on the large-scale assembly line, such as man-hours and machine-hours, with no need to manufacture equipment and products on two voltages;

• - offer the machinery and equipment manufacturer an innovative, low-cost and highly efficient device, in addition to being easily adapted to electrical equipment and machinery;
• - reduce costs related to storage, transportation and the entire logistics process;
• - facilitate sales online or at the counter, regardless of the fact that the location of use of the device operates on 110 V, 127 V or 220 V; in addition to increasing the mix of models of machines and equipment in stock, notably due to the fact that they do not require stock at two different voltages;
• - replace heavy and expensive current transformers, when compared to the device object of the present invention;
• - it has an important function in direct sales, as, certainly, the consumer / final professional opts for a bivolt equipment, due to several factors: practicality, safety and economy, notably for avoiding accidents and burning machines or appliances from the coupling plug with incorrect voltage.

ADVANTAGES OF THE INVENTION

• - a possibilidade de uso do mesmo produto fabricado com o conversor eletrônico da invenção, em qualquer lugar do Brasil ou de qualquer outro país, independentemente da voltagem local ser 110 V, 127 V ou 220 V;
• - o fato de proporcionar menor estoque aos fabricantes e revendedores, no sentido de manter produtos elétricos e eletrônicos industriais nas voltagens 110 V, 127 V ou 220 V. Ou seja, são fabricados e/ou mantidos em estoque apenas aparelhos, equipamentos ou máquinas bivolts;
• - a invenção evita eventuais erros de logística motivados, por exemplo, pela entrega de equipamentos com voltagens erradas.

[010] The present invention, that is, the electronic converter device in question, presents a new and unique construction, which can be used as an independent device, or can be integrated into the operating circuits of the equipment for which it is intended. Among the main advantages of the invention, we can mention:

• - the possibility of using the same product manufactured with the electronic converter of the invention, anywhere in Brazil or any other country, regardless of whether the local voltage is 110 V, 127 V or 220 V;
• - the fact of providing less stock to manufacturers and resellers, in order to maintain industrial electrical and electronic products at voltages 110 V, 127 V or 220 V. That is, only appliances, equipment or bivolt machines are manufactured and / or kept in stock ;
• - the invention avoids any logistical errors motivated, for example, by the delivery of equipment with wrong voltages.

DESCRIPTION OF THE FIGURES

[011] The invention will be described below in an embodiment, and for better understanding, references will be made to the attached drawings, in which they are represented:
FIGURE 1: shows the electronic circuit of the device according to the invention, that is: automatic electronic device bivolt 110 V, 127 V, 220 V, for universal brush motors with power up to 3000 W and resistive loads up to 3000 W;
FIGURE 2: shows the detail of the potentiometer (P1) in the open position;
FIGURE 3: shows the detail of the potentiometer (P1) in the closed position;
FIGURE 4: shows the detail of the device of the invention with dimmer.

DETAILED DESCRIPTION OF THE INVENTION

[012] THE AUTOMATIC ELECTRONIC CONVERTER DEVICE OF BIVOLT ALTERNATE CURRENT, POWER SUPPLY 110 V, 127 V OR 220 V OUTPUT 127 V, FOR UNIVERSAL BRUSH ENGINES UP TO 3000 WE RESISTIVE LOADS UP TO 3000 W WITH OPTIONAL DIMMER, object of this patent application , comprises, according to figure 1, an input (1) 110 V, 127 V, 220 V and an output (2) 127 V, being provided a source (3) of 24 V, a Wheatstone bridge (4) preceded by resistor R1 (4B), a resistive divider (5), a trigger unit (6), a transistor TR1 to switch RL according to the Wheatstone bridge (4), a TRIAC T1 (7), next to the unit trigger (6), and a potentiometer (P1), which can be open, closed or with a dimmer (8).

[013] The circuit of the invention has two input points (1) and two output points (2), and, as shown, the input (1) uses a voltage of 110 V, 127 V or 220 V; whereas, the output (2) will always supply a voltage not greater than 127 V.

[014] The device to be energized, with or without load, supplies the source (3) through the components: capacitors C1 (9), diode D1 (10), diode D2 (11), diode D3 (12) and capacitor C2 (13), resulting in a stabilized voltage of 24 VDC.

[015] In simultaneous operation, voltage sensor TR1 (14) is fed, which reads the input voltage in milliseconds and switches the RL relay (15) or not, determining the output voltage at 127 V.

[016] The voltage sensor, or TR1 transistor (14) goes into operation in an extremely short time, particularly as a function of the Wheatstone bridge (4) formed by the components: resistors R2 (15), R3 (16), R4 (17); capacitor C4 (18), diode D4 (19) and diode D5 (19B), making the transistor drive at 127 V and not drive at 220 V.

[017] When transistor TR1 (14) activates relay RL (15B), it activates the resistive divider (5), formed by resistors R6 (20), R7 (21) and R5 (22), letting go through the TRIAC T1 (7) 100% of the voltage, since the input (1) is 127 V.

[018] When the transistor TR1 (14) does not conduct, the same resistive divider (5) allows only 55% of the input voltage to pass through the TRIAC T1 (7), that is, 220 V.

[019] For the trip of the TRIAC T1 (7), the trip unit (6) is equipped with the components: resistor R8 (23), resistor R9 (24), capacitor C5 (25), capacitor C6 (25B), resistor R10 (26), DIAC D6 (26B), so that this trigger unit (6) performs the mentioned trigger with precision and stability. Capacitor C3 (27) is intended to prevent the formation of an electrical arc in the RL relay (15B).

[020] Figure 2 shows the detail of the potentiometer (P1) in the open position; whereas figure 3 shows the potentiometer (P1) in the closed position, that is, for one or another relay RL (15B); while figure 4 shows the solution through a dimmer (8).

• - C1 (9) - 3 x 0,22μF x 400V;
• - C2 (13) - 150μF x 50V;
• - C3 (27) - 4,7μF x 50 V;
• - C4 (18) - 0,22μF x 100 V;
• - C5 (25) - 0,048μF x 250 V;
• - C6 (25B) - 0,048μF x 250 V;
• - R1 (4B) - 180ΚΩ 1W;
• - R2 (15) - 10ΚΩ 1/5W;
• - R3 (16) - 27ΚΩ;
• - R4 (17) - ΜΩ;
• - R5 (22) - 5,6ΚΩ;
• - R6 (20) - 220ΚΩ;
• - R7 (21) - 180ΚΩ;
• - R8 (23) - 4,7ΚΩ;
• - R9 (24) - 47Ω;
• - D1 (10) - 1N4007;
• - D2 (11) - 1N4007;
• - D4 (19) - 1N4007;
• - D5 (19B) - 1N4007;
• - TR1 (14) - BC 557;
• - RL (15B) - Mini relé 24 V;
• - T1 (7) - TRIAC 25 A 1200 V - de acordo com a carga;
• - P1 - Potenciômetro opcional 200ΚΩ, ou direto;
• - D3 (12) - Diodo Zener 24V 5W;
• - R10 (26) - 1 ΚΩ;
• - D6 (26B) - BR100 DIAC.

[021] In order to make possible an embodiment of the invention, the following are the electronic components used, according to a preferred technical specification, but not necessarily immutable, namely:

• - C1 (9) - 3 x 0.22μF x 400V;
• - C2 (13) - 150μF x 50V;
• - C3 (27) - 4.7μF x 50 V;
• - C4 (18) - 0.22μF x 100 V;
• - C5 (25) - 0.048μF x 250 V;
• - C6 (25B) - 0.048μF x 250 V;
• - R1 (4B) - 180ΚΩ 1W;
• - R2 (15) - 10ΚΩ 1 / 5W;
• - R3 (16) - 27ΚΩ;
• - R4 (17) - ΜΩ;
• - R5 (22) - 5.6ΚΩ;
• - R6 (20) - 220ΚΩ;
• - R7 (21) - 180ΚΩ;
• - R8 (23) - 4.7ΚΩ;
• - R9 (24) - 47Ω;
• - D1 (10) - 1N4007;
• - D2 (11) - 1N4007;
• - D4 (19) - 1N4007;
• - D5 (19B) - 1N4007;
• - TR1 (14) - BC 557;
• - RL (15B) - 24 V mini relay;
• - T1 (7) - TRIAC 25 A 1200 V - according to the load;
• - P1 - Optional 200ΚΩ potentiometer, or direct;
• - D3 (12) - Zener diode 24V 5W;
• - R10 (26) - 1 ΚΩ;
• - D6 (26B) - BR100 DIAC.

Claims (6)

AUTOMATIC BIVOLT ALTERNATING CURRENT ELECTRONIC CONVERTER DEVICE, POWER SUPPLY 110 V, 127 V OR 220 V OUTPUT 127 V, FOR UNIVERSAL BRUSH ENGINES UP TO 3000 W AND RESISTIVE LOADS UP TO 3000 W WITH OPTIONAL DIMMER, characterized by comprising an input (1) 110 V, 127 V, 220 V and an output (2) 127 V, with a 24 V power supply (3), a Wheatstone bridge (4) preceded by resistor R1 (4B), a resistive divider (5), a unit of trip (6), a TR1 transistor to switch relay RL (15B) according to the Wheatstone bridge (4), a TRIAC T1 (7), next to the trip unit (6) and a potentiometer (P1), which can be open, closed or be a dimmer (8); 110 V, 127 V or 220 V voltage is applied to the input (1), whereas the output (2) will always supply a voltage not greater than 127 V. AUTOMATIC BIVOLT ALTERNATING CURRENT ELECTRONIC CONVERTER DEVICE, POWER SUPPLY 110 V, 127 V OR 220 V OUTPUT 127 V, FOR UNIVERSAL BRUSH ENGINES UP TO 3000 W AND RESISTANT LOADS UP TO 3000 W WITH OPTIONAL DIMMER, according to claim 1, characterized by the device a be energized, with or without load, supply the source (3) formed by the components: capacitors C1 (9), diode D1 (10), diode D2 (11), diode D3 (12) and capacitor C2 (13), resulting in a stabilized voltage of 24 VDC; in simultaneous operation, the voltage sensor TR1 (14) is fed, which reads the input voltage in milliseconds and switches the RL relay (15B) or not, determining the output voltage at 127 V. AUTOMATIC BIVOLT ALTERNATING CURRENT ELECTRONIC CONVERTER DEVICE, POWER SUPPLY 110 V, 127 V OR 220 V OUTPUT 127 V, FOR UNIVERSAL BRUSH ENGINES UP TO 3000 W AND RESISTANT LOADS UP TO 3000 W WITH OPTIONAL DIMMER, according to claim 2, characterized by the sensor of voltage, or TR1 transistor (14) will start up in a short period of time, depending on the Wheatstone bridge (4) formed by the components: resistors R2 (15), R3 (16), R4 (17); capacitor C4 (18), diode D4 (19) and diode D5 (19B), making the transistor drive at 127 V and not drive at 220 V. AUTOMATIC BIVOLT ALTERNATING CURRENT ELECTRONIC CONVERTER DEVICE, POWER SUPPLY 110 V, 127 V OR 220 V OUTPUT 127 V, FOR UNIVERSAL BRUSH ENGINES UP TO 3000 W AND RESISTIVE LOADS UP TO 3000 W WITH OPTIONAL DIMMER, according to claim 3, characterized by transistor TR1 (14) activate the relay RL (15B), which operates the resistive divider (5) formed by resistors R6 (20), R7 (21) and R5 (22), passing through the TRIAC T1 (7) 100% of the voltage. AUTOMATIC BIVOLT ALTERNATING CURRENT ELECTRONIC CONVERTER DEVICE, POWER SUPPLY 110 V, 127 V OR 220 V OUTPUT 127 V, FOR UNIVERSAL BRUSH ENGINES UP TO 3000 W AND RESISTANT LOADS UP TO 3000 W WITH OPTIONAL DIMMER, according to claim 4, characterized by the fact that , when the transistor TR1 (14) does not drive, the resistive divider (5) allows only 55% of the input voltage to pass through the TRIAC T1 (7), that is, 220 V. AUTOMATIC BIVOLT ALTERNATING CURRENT ELECTRONIC CONVERTER DEVICE, POWER SUPPLY 110 V, 127 V OR 220 V OUTPUT 127 V, FOR UNIVERSAL BRUSH ENGINES UP TO 3000 W AND RESISTIVE LOADS UP TO 3000 W WITH OPTIONAL DIMMER, according to claim 1, characterized by the fact that that, for the trip of the TRIAC T1 (7), the trip unit (6) has the following components: resistor R8 (23), resistor R9 (24), capacitor C5 (25), capacitor C6 (25B), resistor R10 (26), DIAC D6 (26B).

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