ES1068719U - Electronic control device for liquid evaporators (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Electronic control device for liquid evaporators, which being applicable in that type of evaporator apparatus used to evaporate liquids such as aromas, insecticides or others, is characterized in that it includes a reducer-rectifier and filtering circuit, to whose exit it has been a sensor that detects the ambient temperature and/or the evaporator apparatus in question, whose signal, through a comparator element, is applied to the evaporator's own heating element, to establish, according to the temperature, the interruption and/or connection of an electronic switch, to keep the evaporator temperature constant, regardless of the ambient temperature and the supply voltage itself. (Machine-translation by Google Translate, not legally binding)

Description

Electronic control device for liquid evaporators

Object of the invention

The present invention relates to a electronic control device for liquid evaporators, whose obvious purpose is to control the temperature of evaporation and therefore the evaporator liquid consumption, based on a control of the heating element so that it does not exceed a predetermined temperature value, regardless of Ambient temperature and supply voltage.

The object of the invention is to provide a device that by itself is capable of controlling an evaporator of liquids, based on an electronic circuit that is housed in the inside the corresponding evaporator.

Background of the invention

As is known, liquid evaporators, either aromas, insecticides, etc., for the most part contain regulatory devices for the user to regulate the aroma intensity varying the evaporation of the liquid.

Well, the problem of the devices or known devices and currently marketed, resides in which evaporators are very sensitive to changes in temperature of the environment in which they are, since if increase the room temperature increase the temperature in the wick in the same proportion, which means a higher consumption of the liquid that evaporates, unable to determine exactly the duration of said liquid.

That is, if for example an evaporator it is at an ambient temperature of 25ºC, in the case of measure the temperature in the wick, if it is 70 ° C, when the ambient temperature increases, and reaches, for example, 30 ° C, the wick temperature will reach 75 ° C, which produces a higher consumption of the liquid, not being able to determine exactly the duration of it.

Description of the invention

The electronic control device for liquid evaporators that are recommended, has been designed to solve the problem described above, based on a simple solution but of great efficiency, since said device of control includes an electronic circuit integrated in the own one evaporator, based on whose circuit is detected, by of a sensor, the room temperature, being able to complement with a second sensor that detects the temperature in the element heater, so that depending on the established parameters the temperature of the heating element will be regulated, disconnecting feeding it until it cools to the same set and reconnect.

This really regulates the wick temperature, and therefore the behavior of evaporator, that regulation being the same everywhere of the world, regardless of the season of the year and without depending obviously from room temperature.

In a variant embodiment, it is planned that the electronic circuit includes a sensor placed strategically by which the temperature can be detected of the heating element, when the temperature reaches a value preset maximum, at which time the electronic circuit disconnect the heating element, and at that time the set, lowering the temperature, so that when it reaches the value minimum established the electronic circuit itself again feed the heating element, thus managing to regulate the evaporator temperature regardless of the temperature ambient.

Therefore, having the wick of the device evaporator always at the same temperature will be controlled so effective evaporation fluid consumption, regardless as already said before room temperature and of the supply voltage.

Description of the drawings

To complement the description that is being performing and in order to help a better understanding of the characteristics of the invention, according to a preferred example of practical realization of it, is accompanied as part member of this description, a single sheet of plans where with an illustrative and non-limiting nature, a block diagram corresponding to the different components that  involved in the electronic controller device applied to a evaporator, all in accordance with the purpose of the invention.

Preferred Embodiment of the Invention

As you can see in the commented figure, the control device of the invention comprises a block (1) corresponding to a reducer-rectifier circuit and filtering, which is fed through a source of supply (2), between which and the circuit itself (1) has been The corresponding start-up switch (3) is provided.

To that circuit reducer-rectifier and filter (1) is followed by a sensor circuit (4) whose detected signal is applied to a comparator (5) connected to the corresponding heating element (6) of the evaporator apparatus, this being associated with a switch electronic (7) connected to the input of the circuit itself reducer-rectifier and filter (1), connection which is done through line (8), while closing the heating element circuit (6) is carried out through the line (9), as depicted in the described figure.

According to these characteristics, when the sensor (4) detects the ambient temperature, through the comparator (5) is applied to the heating element (6), establishing, in case of exceeding the preset temperature, the interruption to through the electronic switch (7), that is the disconnection of that heating element (6), thereby avoiding an excess of evaporation of the liquid while when a cooling, the circuit closing is restored again, and by therefore the supply of the heating element (6), for Repeat the cycle.

This regulates the temperature of the evaporator apparatus to which the control device is applied described, whatever the ambient temperature, since it is achieved that such an evaporator always remains the same temperature, with the consequent control of the consumption of liquid.

Claims (1)

1. Electronic control device for liquid evaporators, which being applicable in those types of evaporator devices used to evaporate liquids such as aromas, insecticides or others, is characterized in that it includes a reducing-rectifying and filtering circuit, whose output has been provided a sensor that detects the ambient temperature and / or of the evaporator apparatus in question, whose signal, through a comparator element, is applied to the evaporator heating element itself, to establish, according to the temperature, the interruption and / or connection of an electronic switch, to keep the evaporator temperature constant, regardless of the ambient temperature and the supply voltage itself.